Title of Invention

"A COMPOSITION COMPRISING A MIXTURE OF TRITERPENES AND PROCESS FOR PREPARATION THEREOF"

Abstract

The present invention relates to compositions comprising the triterpenes, dihydrobutyrospermol, dihydrolupeol and/or dihydroparkeol, the composition being applicable as a pharmaceutical, a dietary supplement or as a cosmetic. Further, the invention relates to the use of such compositions for the preparation of a medicament, a dietary supplement or a cosmetic for immunomodulating in a mammal such as suppression of viral infections, cardiovascular diseases, cancer, hypersensitivity and/or inflammatory reactions. The triterpenes may be in form of the free alcohol or derivatised, preferably with cinnamic acid, acetic acid or fatty acids. Furthermore, the triterpenes may be an extract obtainable from a natural source or synthetically made.

Full Text

Dihydro-triterpenes in the treatment of viral infections, cardiovascular disease, inflammation, hypersensitivity or pain FIELD OF THE INVENTION The present invention relates to compositions comprising dihydrobutyrospermol, dihydrolupeol or dihydroparkeol, or mixtures thereof. The composition may be formulated with pharmaceuticaliy acceptable carriers and/or excipients for oral, parenteral or topical administration. The composition may be used as a pharmaceutical, a dietary supplement or a cosmetic. The invention also relates to the use of such compositions for the preparation of a medicament for immunomoduiation such as suppression of hypersensitivity, inflammatory reactions and viral infections. BACKGROUND OF THE INVENTION Hypersensitivity is defined as a state of altered reactivity in which the body reacts with an exaggerated immune response to a substance (antigen). Hypersensitivity may be caused by exogenous or endogenous antigens. Hypersensitivity reactions underlie a large number of diseases. Among these, allergic and autoimmune conditions are of great importance. A classification of hypersensitivity diseases is given in the textbook Clinical Medicine (Kumar, P. and Clark, M.: "Clinical Medicine", 3rd edition, p. 147-150, 1994, Batlliere Tindail, London). Typically, the hypersentivity reactions are categorised in four types: • Type I hypersensitivity reactions (IgE mediated allergic reactions) are caused by aller gens (specific exogenous antigens), e.g. pollen, house dust, animal dandruff, moulds, etc. Allergic diseases in which type I reactions play a significant role include asthma, eczema (atopic dermatitis), urticaria, allergic rhinitis and anaphylaxis. • Type II hypersensitivity reactions are caused by celt surface or tissue bound antibodies (IgG and IgM) and play a significant role in the pathogenesis of myasthenia gravis, Goodpasture's syndrome and Addtsonian pernicious anaemia. • Type III hypersensitivity reactions (immune complex) are caused by autoantigens or exogenous antigens, such as certain bacteria, fungi and parasites. Diseases in which type III hypersensitivity reactions play a significant role include lupus erythematosus, rheumatoid arthritis and glomerulonephritis. Type IV hypersensitivity reactions (delayed) are caused by cell or tissue bound antigens. This type of hypersensitivity plays a significant role in a number of conditions, e.g. graft-versus-host disease, leprosy, contact dermatitis and reactions due to insect bites. Type I to type IV hypersensitivity reactions are all classically allergic reactions, which may lead to histamine release. However, hypersensitivity reactions are also those, where histamine release is triggered through the directly action of "triggering substances" with the cellular membrane. Examples of "triggering substances" are, but not limited to, toxins, food constituents and certain drugs. A number of drug classes are available for the treatment of hypersensitivity reactions. Among these, the corticosteroids are some of the most widely used drugs. Corticosteroids primarily exert their pharmacological action by non-selectively inhibiting the function and proliferation of different classes of immune cells resulting in suppression of hypersensitivity reactions. Unfortunately, the corticosteroids are associated with a number of serious side effects, e.g. immuno-suppression, osteoporosis and skin atrophy. Viruses are small infectious agents that contain either DNA or RNA. Because viruses are metabolically inert, they must live intracellularly, using a host cell for synthesis of viral proteins and nucleic acid. Viruses have a central nucleic core surrounded by a protein coat that is antigenically unique for a particular virus. Some viruses also possess an envelope consisting of protein and lipid. The two major classes of viruses are the DNA viruses and the RNA viruses. A relatively limited number of drugs are available for the treatment of viral infections: • Interferons (INF's) are potent cytokines that possess antiviral, immunomodulating and antiproliferative actions. These proteins are synthesized by cells in response to various inducers and in turn cause biochemical changes leading to an antiviral state in cells of the same species. Three major classes of interferons with significant antiviral activity are currently recognised: alpha (of which there are more than 24 Individual species), beta and gamma. Clinically used recombinant alpha interferons are non-glycosylated proteins of approximately 19.5 kDa. Both recombinant and natural alpha interferons are approved in the United States, depending on the specific interferon type, for the treatment of condyloma acuminatum, chronic hepatitis C, chronic hepatitis B, Kaposi's sarcoma in HIV-infected patients and multiple sclerosis. • Acyclovir is an acyclic guanine nucleoside analogue, which is used topically and systemlcally for the treatment of herpes viruses. Valacyclovir is a prodrug of acyclovir. • Other anti-herpes virus agents are famciclovir, penciclovir and gandclovir which are also acyclic guanine nudeoside analogues. Other anti-herpes virus agents are foscarnet which is an inorganic pyrophosphate analogue, idoxuridine which is an iodinated thymidine analogue, trifluridine which is a flourinated pyrimidine nucleoside, vidarabine which is an adenosine analogue, and sorivudine which is a pyrimidine nucleoside analogue. • Among the currently available antiretroviral agents, zidovudine is a thymidine analogue (active against HIV-1, HIV-2 and HTLV-1), didanosine is a purine nudeoside analogue (active against HIV-1 and HIV-2), stavudine is a thymidine nucleoside analogue (active against HIV-1) and zaldtabine is a cytosine nudeoside analogue (active against HIV-1). • Among other antiviral agents are amantadine and n'mantadine which are uniquely con figured tricydic amines. Both agents are used for the treatment of influenza A virus infections.The triterpenes constitute a large diverse group of natural products derived from squalene (Abe, F. and Yamauchi, T. 1987. Chem. Pharm. Bull. 35, 1833-1838). In excess of 4000 triterpenes have been isolated so far and more than 40 different skeletal types have been isolated. Triterpenes are widespread in the plant kingdom and occur in numerous plants. The triterpene alcohols butyrospermol, lupeol and parkeol are widely occurring in many plants induding Theaceae Ce.g. Camellia japonica L., Camellia sasanqua Thunb. and Thea slnensis L.) and Butyrospermum parkii (karite tree). The triterpene alcohols dihydrobutyrospermol (T. Itoh, T. Tamura and T. Matsumoto, Upids, 1974 vol. 9, No. 3, 173-184), dihydrolupeol.(H. Budzikiewicz, J. M. Wilson and C. Djerassi, J. Am. Soc., 1963, vol. 85, 3688-3699) and/or dihydroparkeol (T. Itoh, T. Tamura and T, Matsumoto, Upids, 1974 vol.' 9, No. 3,173-184) are hydrogenation products of butyrospermol, lupeol and parkeot, respectively. Numerous pharmacological actions have been attributed to.triterpenes. Such actions are highly diverse and depend on the spedfic structures of the triterpenes. Pharmacological effects or any pharmaceutical, dietary or cosmetic use of the triterpenes dihydrobutyrospermol, dihydrolupeol and dihydroparkeol, or derivatives thereof have not previously been described in the literature. Thus, to the inventor's best knowledge, the compositions according to the present invention comprises dihydrobutyrospermol, dihydrolupeol and/or dihydroparkeol, neither in the form of the free alcohols nor in the form of derivatives such as esters and ethers have never been disclosed before. There is a strong need for new antiviral and anti-inflammatory drugs due to a lack of efficacy of existing therapeutic agents and because of a number of unpleasant side effects related thereto. SUMMARY OF THE INVENTION It has been found that dihydrobutyrospermol (7(8)-en-4,4,14-trimetyf-cholestan-3-ol), dihydrolupeol (lupan-3-ol) and/or dihydroparkeol (9(ll)-en-4,4,14-trimetyI-cholestan-3-ol), wherein said triterpenes may be in the form of free alcohols or derivatives thereof, especially cinnamic acid esters, acetic add esters or fatty acid esters, possess surprising anti-inflammatory effects relevant to anti-inflammatory and hypersensitivity diseases, and surprising antiviral effects relevant to the treatment of viral infections. Compared to the existing antiviral drugs, dihydrobutyrospermol, dihydrolupeol and/or dihydroparkeol have the advantage of being active against a broad range of viruses and not being associated with any serious side effects. Furthermore, dihydrobutyrospermol, dihydrolupeol and/or dihydroparkeol Inhibit the secretion of Inflammatory cytokines and have palliative properties in relation to Inflammation or irritation, thus increasing their therapeutic potential. The present invention provides novel compositions comprising one or more of the above-mentioned triterpenes formulated for topical, oral or parenteral administration, using pharmaceutically acceptable carriers and/or excipients. The compositions of the invention, or one or more triterpenes present In an extract obtainable from a natural source, can further be combined with any other pharmacological active agent so as to potentiate the pharmacological action. • Furthermore, the present invention relates to the use of dihydrobutyrospermol, dihydrolupeol and/or dihydroparkeol, or derivatives thereof, for preparing a medicament for immunomodulation such as the treatment and/or prevention of viral and bacterial infection and/or inflammation/hypersensitivity reactions. Moreover, according to the invention, dihydrobutyrospermol, dihydrolupeol and/or dihydroparkeol, or derivatives thereof, can be used in a method for immunomodulation of a mammal such for the treatment or prevention of viral or bacterial infection and/or inflammation/hypersensitivity reactions in an individual, comprising administering dihydrobutyrospermol, dihydrolupeol and/or dihydroparkeol, or derivatives thereof, or a pharmaceutical composition comprising said triterpenes. It has been found by the present inventor that a composition comprising dihydrobutyrospermol, dihydrolupeol and/or dihydroparkeol, or derivatives thereof, such as derivatives thereof, especially cinnamic acid, acetic add or fatty acid esters, significantly suppresses hypersensitivity reactions when absorbed systemlcally following oral, parenteral or topical administration. Optionally, such composition comprises one or more pharmaceutically acceptable carrier(s) or excipient(s) suitable for allowing systemic absorption of said triterpenes. Furthermore, it has been found by the present inventor that a pharmaceutical composition comprising dihydrobutyrospermol, dihydrolupeol and/or dihydroparkeol and formulated for topical administration, using one or more pharmaceutically acceptable carrier(s) and/or exdpient(s), significantly inhibits inflammation or hypersensitivity of the skin or mucous membranes following topical administration. Topical administration may allow the triterpenes to be present in the mucous or dermis for an adequate period to achieve the therapeutic effect. Compared to existing therapeutic agents, such as corticosteroids or non-steroidal anti-inflammatory drugs, the pharmaceutical compositions and dietary supplements according to the present invention have the advantage of not being assodated with any serious side effects, as all of their components are non-toxic and well tolerated by the organism in the pharmacologically relevant doses. Thus, the present invention provides, in a first aspect, a composition comprising: 1. a triterpene or mixture of triterpenes selected from the group consisting of dihydrobutyrospermol, dihydrolupeol and dihydroparkeol, or derivatives thereof,; and 2. one or more acceptable exdpients and/or carriers such that the composition being suitable formulated for oral, parenteral and/or topical administration. The derivatives of dihydrobutyrospermol, dihydrolupeol and dihydroparkeol are such that the alcohol moiety may be derivatised. Thus, the triterpenes may be in the form of their free alcohols (OH), or in the form of ethers, esters, or as the free alkoxide ion present as a salt. As is known to the person skilled in the art, an alcohol moiety may be easily derivatised so as to achieve a variety of pharmacological and pharmacokinetic objectives. Thus, prodrugs of the triterpenes are suitable embodiments of derivatives. Moreover, the triterpenes, either In the form of the free alcohols or in the form of derivatised triterpenes such as esters or ethers of triterpenes, may further be in the form of a pharmaceutically acceptable salt, various stereoisomeric forms, including racemic mixtures. Suitable embodiments of esters may be selected from the group consisting of cinnamic acid ester, acetic acid ester and fatty acid esters. Due to the pharmacological effects relating to immunomodulatjon as mentioned above, the compositions according to the invention can be employed for a number of therapeutic applications. Accordingly, the present invention provides in another aspect the use of a triterpene or mixture of triterpenes selected from the group consisting of dihydrobutyrospermol, dihydrolupeol and dihydroparkeol or derivatives thereof, for the preparation of a medicament, a cosmetic or a dietary supplement for immunomodulation of a mammal, such as a human. In a still further aspect, the triterpenes or the composition comprising the triterpenes are applied in a method for immunomodulation in a mammal, such as a human, comprising the administration to said mammal a triterpene or mixture of triterpenes selected from the group consisting of dihydrobutyrospermol, dihydrolupeol and dihydroparkeol, or derivatives thereof. As stated above, the immunomodulating effects of the triterpenes may give rise to a number of therapeutic applications. Therefore, said use of triterpenes for the preparation of a medicament for Immunomodulation or the method of immunomodulating comprising administering said triterpenes may be employed for the treatment and prevention of: • Hypersensitivity and/or inflammatory reactions • Inflammation or hypersensitivity of the dermis or mucous • IgE mediated allergic reactions and conditions • Autoimmune diseases and/or chronic inflammatory diseases • Viral or bacterial infections • Prostatitis or benign prostatic hypertrophy • Cardiovascular disease, especially hyperlipidemia and atherosclerosis • Cancer and further employed for alleviation of pain. DETAILED DESCRIPTION OF THE INVENTION It has surprisingly been found that compositions containing dihydrobutyrospermot, dihydrolupeol and/or dihydroparkeol, wherein said triterpenes may be In the form of free alcohols or derivatives thereof, especially esters with cinnamic acid, acetic acid or fatty acids, inhibit the inflammatory cytokines, TNF-a and IL-6, and have surprising anti-inflammatory effects as well as antiviral effects. Compared to the existing anti-inflammatory drugs, such as steroids and Ibuprofen, and to the antiviral drugs, the compositions of the invention have the advantage of being active against a broad range of inflammatory diseases and viruses and not being associated with any serious side effects. Furthermore, the compositions of the invention have palliative properties in relation to inflammation or irritation, thereby increasing their therapeutic potential. The structures of dihydrobutyrospermol, dihydrolupeol and/or dihydroparkeol are shown in formula I, II and III, respectively. Formula I: 24(25)-dihydrobutyrospermol (Figure Remove) More specifically, dihydrobutyrospermol, dihydrolupeol and/or dihydroparkeol as describee above provide the following pharmacological effects upon administration to the living organism: • Suppression of inflammation, hypersensitivity and irritation • Direct antiviral action against a broad range of pathogenic viruses • Palliative effects on inflammation or irritation caused by the viral infection In example 3 and 4, the topical and systemic anti-inflammatory effect of a composition according to the invention was demonstrated in a test model. The topical and systemic anti-inflammatory effect was just about that of hydrocortisone and ibuprofen, respectively Moreover, the compositions and triterpenes according to the invention were demonstratec to inhibit the secretion of inflammatory cytokines, TNF-ct and 11-6.. As is known to a perso skilled in the art, given that the secretion of certain inflammatory cytokines were inhlbitec in vitro by triterpenes and compositions according to the invention, it is to be anticipated that the compositions of the invention will inhibit other cytokines which relate to anti-inflammatory and hypersensitivity effects. The anti-viral effect of a composition according to the invention was measured in a well-established model of viral infection in cells (Herpes simplex infection in Vero cells and Influenza A Infection in MDCK cells). In this experiment the composition of the invention dose dependently inhibited both Herpes simplex and Influenza A Infection at concentrations of 8-200 pg/mL In a separate experiment (see example 2) the LD50 in the rat of the same composition of the invention was shown to be above 2000 mg/kg. This indicates a very beneficial therapeutic index against viral infections of the composition of the invention. Thus, it has surprisingly been found by the present inventor that a composition comprising: 1. a triterpene or mixture of triterpenes selected from the group consisting of dihydrobutyrospemnol, dihydrolupeol and dihydroparkeol, wherein said triterpenes may be in the form of free alcohols or derivatives thereof, preferably esters with cinnamic acid, acetic acid or fatty acids; and 2. one or more acceptable extipients and/or carriers, significantly suppresses viral infections as well as inflammation or hypersensitivity reactions. Said composition may be suitable formulated as a pharmaceutical composition for oral, topical, transdermal, or parenteral administration, preferably topical and transdermal administration. The composition may also be suitable formulated as a dietary supplement or a cosmetic. "A "dietary supplement" is defined according to the U.S. Food and Drug Administration in the Dietary Supplement Health and Education Act of 1994 (DSHEA). The DSHEA gives the following formal definition of a "dietary supplement": "A dietary supplement: • is a product (other than tobacco) that is intended to supplement the diet that bears or contains one or more of the following dietary ingredients: a vitamin, a mineral, an herb or other botanical, an amino acid, a dietary substance for use by man to supplement the diet by increasing the total daily intake, or a concentrate, metabolite, constituent, extract, or combinations of these things. • is intended for ingestion in pill, capsule, tablet, or liquid form." Similar definitions exist in other parts of the world, e.g. in Europe. Different denominations concerning "dietary supplements" are used around the world, such as "food supplements", "neutraceuticals", "functional foods" or simply "foods". In the present context the term "dietary supplement" covers any such denomination or definition. When applied topically the pharmaceutical composition inhibits inflammation or hypersensitivity of the skin or mucous membranes. Thus the triterpenes is released from the composition to the dermis or mucous for being present in the dermis or mucous in sufficient amounts and/or for an adequate period of time to exhibits its pharmacological effect. For example, the composition according to the invention suppresses that kind of topical inflammation, which is also treated by the steroid, hydrocortisone 17-butyrate. The compositions of the invention are also effective in suppression of inflammation and hypersensitivity reactions following systemic absorption. As disclosed herein, the inventors have provided evidence for that the compositions according to the invention inhibits inflammation following systemic uptake. Thus, compositions irrespective of their oral, parenteral or topical administration provide a surprisingly good anti-hypersensitivity and anti-inflammatory effect with a surprisingly good safety profile. Thus, the compositions of the invention are virtually non-toxic and yet very therapeutically effective. The proper amount of the triterpenes in the composition in order to obtain beneficial effects may vary according to the individual needs of the patient, the severity of the symptoms and the disease. Thus, compositions according to the invention comprise dihydrobutyrospermol, dihydrolupeol or dihydroparkeol individually or in mixtures in a weight percentage (w/w) of typically at least 0.1%, e.g. at least 0.5%, at least 1%, such as at least 2%, at least 5%, e.g. at least 10%, at least 15%, such as at least 20%, e.g. at least 25%, at least 30%, e.g. at least 35%, such as at least 40%, or at least 45%, at least 50%, e.g. at least 55%, at least 60%, or at least 65%, such as at least 70%, e.g. at least 75%, at least 80%, e.g. at least 85%, at least 90%, such as at least 91%, e.g. at least 92%, at least 93%, e.g. at least 94%, at least 95%, or at least 96%, at least 97%, e.g. at least 98%, at least 99%, e.g. at least 100%.'Alternatively stated, the individual weight percentage (w/w) of dihydrobutyrospermol, dihydrolupeol or dihydroparkeol or weight percentage (w/w^bf mixtures thereof in the composition typically is at most 100%, e.g. 99%, at most 98%, e.g. at most 97%, e.g. at most 96, e.g., at most 95%, e.g. at most 90%, e.g. at most 85%, e.g. at most 80%, e.g. at most 75%, e.g. at most 70%, at most 65%, e.g. at most 60%, e.g. at most 55%, e.g. at most 50%, e.g. at most 45%, at most 40%, e.g. at most 35%/e.g. at most 30%, e.g. at most 25%, e.g. at most 20%, e.g. at most 15%, e.g. at most 10%, e.g. at most 9%, e.g. at most 8%, e.g. at most 7%, e.g. at most 6%, e.g. at most 5%, e.g. at most 2%, e.g. at most 1%, e.g. at most 0.5%, e.g. at most 0.1%. Thus, the compositions comprises dihydrobutyrospermol, dihydrolupeol or dihydroparkeol, or mixtures thereof in an amount corresponding to weight percentage (w/w) in the range of 0.1-100%, such as in the range of 1-98%, such as in the range of 2-96%, e.g. in the range of 5-94%, such as in the range of 7-92%, such as in the range of 10-90%, e.g. in the range of 12-88%, e.g. in the range of 14-86%, such as in the range of 16-84%, such as in the range of 18-82%, e.g. in the range of 20-80%. As stated, the compositions may comprise mixtures of the triterpenes. These may be of any combination, such as comprising one, two, or ail three triterpenes. Furthermore, the mixtures may contain exclusively the triterpenes in alcoholic form or in derivatised form, or mixtures of alcoholic, and derivatised form. Additionally, the mixtures may comprise several derivatives or isomeric forms of each triterpene such that the composib'ons of the invention may comprise one or more of dihydrobutyrospermol, dihydroJupeo! and/or dihydroparkeol and/or derivatives thereof, such as 2, 3, 4, 5, 6, 7, 8, 9 or 10 of such triterpenes, as well as mixtures comprising the triterpene alcohols as well as their derivatives. Preferred derivatives of the Invention are dihydrobutyrospermyl acetate, dihydrolupeyl acetate, dihydroparkeyl acetate, dihydrobutyrospermyl tinnamate, dihydrolupeyl cinnamate, dihydroparkeyl dnnamate. According to the invention dihydrobutyrospermol, dihydrolupeol and/or dihydroparkeol and/or the derivatives thereof may be obtained by synthetically means or being obtainable from a natural source. Thus, the said triterpenes may be produced synthetically or bio-synthetically by any suitable chemical reaction. Also according to the invention, these substances may be in the form of an extract obtainable from a natural source such as derived from plants by any suitable sequence of extraction, fractionation and optionally hydrogenation. Numerous plants may be suitable as sources for the production of dihydrobutyrospermol, dihydrolupeol and/or dihydroparkeol and/or the derivatives thereof. Thus, in certain embodiments of the invention, the triterpene or mixture of triterpenes is an extract obtainable from a natural source selected from the group consisting of Butyrospermum parkii, Camellia japonica, Camellia-sasanqua and Thea slnensis. As known to the person skilled in the art, an extract of said triterpenes may be enriched by adding synthetically prepared triterpenes into the extract. When deriving the compositions according to the invention from a plant, any part of the plant may be used, e.g. the fruit (nut), leaves, stem, bark or root. Especially the oils or fat of a suitable plant are relevant as sources of the triterpenes of the invention. The triterpenes of the invention may be derived from a plant by any method of extraction or fractionation, e.g. in the unsaponifiable fraction of a vegetable oil. Such extraction may be performed on fresh or dried plant material, e.g. by distillation (e.g. hydro, steam or vacuum distillation). Extraction may be performed with a number of different solvents, preferably non-polar solvents such as organic solvents. However, polar solvents such as aqueous solution or polar organic solvents may also be applicable. The extraction can be performed hot or cold by the employment of any extraction technology, e.g. maceration, percolation or supercritical extraction (e.g. with carbon dioxide). Non-limiting examples of preferred extraction solvents are acetone, methyl ethyl ketone, methyl acetate, ethyl acetate, lower alkanols having 1-4 carbon atoms, pentane, hexane, heptane and mixtures thereof. The preferred extraction temperature is dose to the boiling point of the employed solvent due to extraction efficacy, but lower temperatures are also applicable, a longer period of extraction then being necessary. By changing the composition of the applied solvent, the extraction can be made more selective for certain constituents thus enhancing or reducing the contents thereof in the finished extract or concentrate. After the primary extraction process, a second step of processing, such as liquid-liquid extraction, precipitation, column chromatography or any type of distillation, can be employed to remove or to concentrate any constituent of the extract. Hereby any constituent can be avoided or concentrated in the finished composition according to the invention. Thus the content of any component can b? standardised and the ratio between dihydrobutyrospermol, dihydrolupeol and/or dihydroparkeol and/or the derivatives thereof may be varied dramatically in the compositions of the invention, and in specific cases any of the compounds may be excluded from a specific composition according to the Invention. / In a preferred embodiment of the invention, the triterpenes of the invention are extracted as butyrospermol, lupeol and/or parkeol and/or the derivatives thereof and subsequently • hydrogenated.by any suitable method of hydrogenation into dihydrobutyrospermol, dihydrolupeol and/or dihydroparkeol and/or the derivatives thereof, the said triterpenes being obtained from the following vegetable sources but not limiting to: Butyrospermum parkii, Camellia japonica, Camellia sasanqua or Thea sinensis. When the triterpenes being derived from plants, the compositions or extracts of the invention may contain other triterpenes than dihydrobutyrospermol, dihydrolupeol and/or dihydroparkeol and/or the derivatives thereof. Non-limiting examples of such triterpenes are butyrospermol, lupeol, parkeol, germanicoJ, dammaradienol, 24-methylene-dammarenol, a-amyrin, jJ-amyrin and faradiot. Also, the compositions of the invention may contain sterols, of which non-limiting examples are p-sitosterol, campesterol, brassicasterol, stigmasterol, avanasteroJ, 24-methyl-cholest-7-enol, karitesterol A, karitesterol B and a-spinasterol. Such additional triterpene alcohols and sterols may be in any form, e.g. in the form of free alcohols or derivatives thereof, especially cinnamic acid esters, acetic acid esters or fatty acid esters. In pharmaceutical compositions, dietary supplements or cosmetics according to the invention, such additional triterpenes and sterols may quantitatively exceed the content of dihydrobutyrospermol, dihydrolupeol and/or dihydroparkeol and/or the derivatives thereof. In some cases such additional triterpenes and sterols may contribute significantly to the pharmacological effects of the compositions of the invention. Thus according to the invention, additive or synergistic effects may occur between dihydrobutyrospermol, dihydrolupeol and/or dihydroparkeol and the optional additional triterpenes and sterols. The pharmacological actions as described supra provide part of the rationale for the following therapeutic applications of the triterpenes of the invention or of a composition according to the present invention. Thus, in a second aspect the Invention relates to the use of a triterpene or mixture of triterpenes selected from the group consisting of dihydrobutyrospermol, dihydrolupeol and dihydroparkeol, or derivatives thereof for the preparation of a medicament, a cosmetic or a dietary supplement for Immunomodulation of a mammal, such as a human. Preferably, the medicament comprises a composition as defined herein. In a still further aspect, the triterpenes or the composition according to the invention may be administered to an individual for treating relevant diseases according to the invention. Thus, the invention relates to a method for immunomodulatlon in a mammal, such as a human, comprising the administration to said mammal a triterpene or mixture of triterpenes selected from the group consisting of dihydrobutyrospermol, dihydrolupeol and dfhydroparkeol, or derivatives thereof. The immunomodulation according to the invention is selected from the group consisting of suppression of hypersensitivity and suppression of inflammatory reactions. Typically, the immunomodulation is associated with diseases and disorders selected from the group consisting of viral infections, bacterial infection, hypersensitivity skin diseases, atopic eczema, contact dermatitis, seborrhoeic eczema, psoriasis, IgE mediated allergic reactions, asthma, allergic rhinitis, anaphylaxis, autoimmune disease, chronic inflammatory disease, Crohn's disease, ulcerative colitis, proctitis, rheumatoid arthritis, gout, osteoarthritis, prostatitis, benign prostatic hyperthrophy, cardiovasculary diseases, hyperlipidemia or aetherosclerosis, pain and cancer. In specific interesting embodiments according to the invention, the said triterpenes are used for the preparation for a medicament for viral infections, influenza or herpes. Thus, the Invention relates to the use of a triterpene or mixture of triterpenes selected From the group consisting of dihydrobutyrospermol, dihydrolupeol and dihydroparkeol or derivatives thereof for the preparation of a medicament for the treatment of viral infections. Further, the invention relates to the use of a triterpene or mixture of triterpenes selected From the group consisting of dihydrobutyrospermol, dihydrolupeol and dihydroparkeol or derivatives thereof for the preparation of a medicament for treating influenza and symptoms of influenza. Moreover, the invention relates to the use of a triterpene or mixture of triterpenes selected from the group consisting of dihydrobutyrospermol, dihydrolupeol and dihydroparkeol or derivatives thereof for the preparation of a medicament for the treatment of herpes. The said triterpene or mixture of triterpenes comprised In said medicament may be selected from the group consisting of dihydrobutyrospermol, dihydrolupeol and dihydroparkeol or derivatives thereof are selected from the free alcohol and an ester derivative of the triterpenes selected from the group consisting of dihydrobutyrospermol, dihydrolupeol and dihydroparkeol. Furthermore, said said triterpene or mixture of triterpenes comprised in said medicament may be obtained by synthetically means or be an extract obtainable from a natural source selected from the group consisting of Butyrospermum parkff, Camellia Japonlca, Camellia sasanqua and Thea s/nens/s. Thus, embodiments according to the invention such as i) compositions comprising said triterpenes, ii) use of said triterpenes for preparation of a medicament for imrnunomodulation in a mammal, or iii) a method for immunomodulation comprising administering said triterpenes relate to following diseases, disorders or conditions that involves Immunomodulation: • Hypersensitivity and/or Inflammatory reactions. According to the invention all known conditions and diseases associated with inflammation and hypersensitivlty reactions are relevant including I-IV type hypersensitivity and those caused by direct htstamine release, and the following examples are not limiting with respect to this: infections (viral, bacterial, fungal, parasitic, etc.), cold and flu, contact dermatitis, insect bites, allergic vasculitis, postoperative reactions, transplantation rejection (graft-versus-host disease), asthma, eczema (e.g. atopic dermatitis), urticaria, allergic rhinitis, anaphylaxis, autoimmune hepatitis, Primary biliary cirrhosis, Primary sderosfng cholangitis, Autoimmune hemolytic anemias, Grave's disease, Myasthenia gravis, Type 1 Diabetes Mellitus, Inflammatory myopathies, Multiple sclerosis, Hashimoto's thyreoiditis, Autoimmune adrenalitis, Crohn's Disease, Ulcerative Colitis, Glomerulonephritis, Progressive Systemic Sclerosis (Sderoderma), Sjogren's Disease, Lupus Erythematosus, Primary vasculitis, Rheumatoid Arthritis, Juvenile Arthritis, Mixed Connective Tissue Disease, Psoriasis, Pemfigus, Pemfigoid, Dermatitis Herpeti- formis, etc. • Inflammation and/or hypersensitivity of the skin, such as dermis and mucous. This effect can be obtained in relation to any skin disease or in relation to any disease that causes such symptoms of the skin. Examples of such conditions are but not limited to atopic eczema, contact dermatitis, seborrhoeic eczema, infections and/or psoriasis. • IgE mediated allergic reactions and conditions. The applicant puts forward the hypothesis that the therapeutic action is due to the suppressing effect on hypersensitivity reaction of the above mentioned compositions. The therapeutic action may be relevant to all known IgE mediated allergic reactions and conditions, and the following examples are not limiting with respect to this: asthma, eczema (e.g. atopic dermatitis), urticaria, allergic rhinitis, anaphylaxis, etc. • Autoimmune diseases and/or chronic inflammatory diseases. The applicant puts forward the hypothesis that the therapeutic action is due to the immuno-modulating and suppressing effect on hypersensitivity reactions of the above mentioned composition. The therapeutic action may be relevant to all known autoimmune disorders, and the following examples are not limiting with respect to this: Autoimmune hepatitis, Primary biliary cirrhosis, Primary sclerosing cholangitis, Autoimmune hernolytic anemias, Grave's disease, Myasthenia gravis, Type 1 Diabetes Mellitus, Inflammatory myopathies, Multiple sclerosis, Hashimoto's thyreoiditis, Autoimmune adrenalitis, Crohn's Disease, Ulcerative Colitis, Glomerulonephritls, Progressive Systemic Sclerosis (Sderoderma), Sjogren's Disease, Lupus Erythematosus, Primary vasculitis, Rheumatoid Arthritis, Juvenile Arthritis, Mixed Connective Tissue Disease, Psoriasis, Pemfigus, Pemfigoid, Dermatitis Herpetlformis, etc. • Viral or bacterial infections. Specifically, the viral infections may be caused by the vira as described herein. The viral infections relate to a broad spectrum of viral infections, in particular herpes infections, especially herpes simplex infections such as herpes labialis, common cold or influenza, viral pharyngitis, viral pneumonia, viral hepatitis, bronchitis or other diseases associated with inflammation or irritation In the respiratory system. Bacterial infections may also be treated with these triterpenes, since said infections are often secondary to virai infections and viral infections may also be secondary infections as the result of bacterial infections. Thus, a bacterial infection may often only be effectively treated by treating the viral infection. • Prostatitis or benign prostatic hypertrophy, inflammation of various tissues, e.g. inflammation of the prostate, in particular prostatitis. "Prostatitls" is defined as inflammatory conditions affecting the prostate, including acute and chronic infections with specific bacteria and, more commonly, instances in which signs and symptoms of prostatic inflammation are present but no specific organism can be detected. Accordingly, the compositions of the invention may also be employed for the management of benign prostatic hypertrophy, a condition associated with swelling of the prostate. • Cardiovascular disease, especially hyperiipidemia and atherosclerosis. • Cancer • Alleviation of pain. The applicant puts forward the hypothesis that the therapeutic action is related to immunomodulation, possibly to a suppressing effect on hypersensitivity reactions. Besides these specific therapeutic areas, the action of the above mentioned triterpenes and compositions is relevant to all known conditions and diseases associated with hypersensitivity reaction, and the following examples are not limiting with respect to this: infections (viral, bacterial, fungal, parasitic, etc.), cold and flu, contact dermatitis, insect bites, allergic vasculitis, postoperative reactions, transplantation rejection (graft-versus-host disease), etc. Without being limited to a specific theory, the suppression of inflammatory and hypersensitivity reactions by the triterpenes and composition according to the invention may, at least in part, relate to the inhibition of the secretion of inflammatory cytokines. Specifically, the present inventors provide evidence for the inhibition of secretion of TNF-a and IL-6. However, as is known to the skilled person, other inflammatory cytokines also exist. Thus, given that the secretion of those other cytokines is inhibited by the triterpenes and compositions according to the invention, it is anticipated that inflammatory diseases and hypersensitivity reactions related to those cytokines may be suppressed by the present compositions and triterpenes. In interesting embodiments according to the invention, the method of treating relates to viral infections such as those caused by various types of herpes simplex or other viruses as discussed herein. Moreover, in some cases the viral infections may be related to influenza or just some symptoms of influenza. Thus, interestingly, the invention relates to a method of treating viral infections in a mammal, such as a human, comprising the administration of a triterpene or mixture of triterpenes selected from the group consisting of dihydrobutyrospemnol, dihydrolupeol and dihydroparkeol, or derivatives thereof. As stated the method of treating may include treatment of influenza and symptoms of influenza and/or treatment of herpes. However, the potential viral targets are many and highly different but a distinction of viruses in RNA viruses and DNA viruses is obvious. Important families of DNA viruses are the herpes viruses such as Herpes simplex virus (HSV). Two types of HSV have been identified: HSV-1 is the cause of herpes lablalis (cold sore), herpetic stomatitis, keratoconjunctfvitis and encephalitis, whereas HSV-2 causes genital herpes and may also be responsible for systemic infection. This partitioning of HSV-1 versus HSV-2 viruses are not rigid because HSV-1 can cause genital herpes and HSV-2 can give rise to pharyngitis. Approximately 70% of the population is infected with HSV-1 and recurrent infections occur in one third of patients. Another member of the herpes virus family .is Varicella zoster virus (VZV). VZV causes two distinct diseases: varicella (chickenpox) and herpes zoster (shingles). Yet another member of the herpes virus family is cytomegalovirus (CMV). Infection with CMV is found world-wide and has its most profound effect as an opportunistic infection in immunocompromii»eu iituiviuuois, particularly in recipients 01 Done marrow or solid organ transplants and in patients with AIDS. Ninety percent of patients with AIDS are infected with CMV. Another member of the herpes virus family is Epstein-Barr virus (EBV). This virus causes an acute febrile illness known as mononucleosis (glandular fever), which occurs world-wide in adolescents and young adults. The symptoms are fever, headache, malaise and sore throat. The disease is commonly associated with mild hepatitis. Yet another member of the herpes virus family is human herpes virus type 6 (HHV-6). This virus, which occurs world-wide, infects T-lymphocytes and exists as a latent infection in over 90% of the adult population. HHV-6 causes roseola infantum (exanthem subitum) which manifests itself as a high fever followed by generalised macular rash in infants. In immunocompromised individuals, the virus may lead to severe pneumonia. Another family of DNA viruses are the adenoviruses. Adenovirus infection commonly presents itself as an acute pharyngitis. In adults adenovirus may cause acute follicular conjunctivitis and more rarely pneumonia. Yet another family of DNA viruses are the papovaviruses. These small viruses tend to produce chronic infections. An important member of the papovaviruses is human papiiioma-virus (HPV). There are many types of HPV, which are responsible for the common wart and have been implicated In the aetiology of carcinoma of the cervix (types 16 and 18). Other members of the papovavlrus family are BK virus (a polyomavirus) and JC virus which occur in immunosuppressed individuals. Another family of DNA viruses are the parvoviruses. An Important member of this family is human parvovirus B19 which produces erythema infectiosum (fifth disease), a common infection in school children. A chronic infection with anaemia occurs in pcompromised subjects. An important family of RNA viruses are the picornaviruses. Among these the polioviruses cause poliomyelitis which occurs when a susceptible person is infected with poliovirus types 1, 2 or 3. Other members of the picornavirus family are coxsackievirus, echovirus and enterovirus, which each have a number of different subtypes, and are all spread by the faecal-roral route. They are responsible for a broad spectrum of diseases involving the skin, mucous membranes, muscles, nerves, the heart and rarely other organs, such as the liver and pancreas. An especially Important member of the picornavirus family is rhinovirus among which there are more than 120 subtypes. Rhinoviruses are responsible for common colds, and due to the many immunotypes, vaccine control is not practically possible. Another family of RNA viruses are the reoviruses. Reovirus infection occurs mainly in children and causes mild respiratory symptoms and diarrhoea. A member of the reovirus family, the rotavirus, is responsible world-wide for both sporadic cases and epidemics of diarrhoea and is presently one of the most important causes of childhood diarrhoea. Yet another family of RNA viruses are the togaviruses. Among these rubella virus is the cause of German measles. While the disease occurs sporadically world-wide, epidemics are not uncommon. Another member of the togavirus family is arbovirus. Over 385 viruses are classified as arboviruses. They are zoonotic viruses, with the possible exception of O'nyong-nyong virus of which humans are the only known vertebrate hosts. Although most arbovirus diseases are generally mild, epidemics are frequent and when they occur the mortality is high. A group of arboviruses are the alphaviruses which are all transmitted by mosquitoes. Human infection is characterised by fever, skinrash, myalgia and sometimes encephalitis. Another group of arboviruses are the flaviviruses, some of which are transmitted by ticks and others by mosquitoes. Yellow fever is one of the best known flavi-virus diseases and is of widely varying severity. It is characterised by high fever and the mortality rate is up to 40% in severe cases. Another flavivirus disease is dengue which is found mainly in Africa and Asia. The disease is usually endemic, but epidemics have been reported. Japanese encephalitis is a mosquito-bome encephalitis caused by flavivirus. It has been reported most frequently in the rice-growing countries of South East Asia and the Far East. As with other viral infections the dinical manifestations are variable. Mortality varies from 7 to 40% and is higher in children. Another group of RNA viruses are the bunyaviruses which form a family of more than 200 viruses, most of which are arthropod-borne. Congo-Crimean haemorrhagtc fever, which is caused by bunyavirus is found mainly in Asia and Africa. The symptoms are influenza-like, with fever and haemorrhagic manifestations. The mortality is 10-50%. A specific type of bunyavirus is hantavirus. The hantaviruses are enzootic and spread by aerosolized excretions. The most severe disease caused by hantaviruses |s Korean haemorrhagic fever with a mortality of 5-10%. In the United States, a new hantavirus causes the acute respiratory distress syndrome (ARDS). Another important group of RNA viruses is the orthomyxoviruses of which there are three important types: influenza A, B and C. Influenza A is responsible for pandemics and epidemics. Influenza B often causes smaller or localised and milder outbreaks, e.g. in schools. Influenza C rarely produces disease in humans. Yet another group of RNA viruses are the paramyxoviruses. Among these parainfluenza virus types I to IV have a world-wide distribution causing the disease parainfluenza with features that are quite similar to common cold. Another paramyxovirus is the cause of measles (rubeola) which Is a highly communicable disease that occurs world-wide. Yet another paramyxovirus is the cause of mumps which is spread by droplet infection, by direct contact. The symptoms are non-specific and include fever, malaise, headache and anorexia. Respiratory syncytial virus is a paramyxovirus that causes many respiratory infections in epidemics each winter. It is a common cause of bronchiolitis in infants, which is complicated by pneumonia in approximately 10% of cases. Another group of RNA viruses is the rhabdoviruses. Among these the rabies virus is a major problem in some countries and carries a high mortality. Yet another group of RNA viruses are the retroviruses which are distinguished from other RNA viruses by their ability to replicate through a DNA intermediate using an enzyme, reverse transcriptase. Two retroviruses, HIV-1 and HIV-2 (the cause of AIDS), are classified as lentiviruses because of their slow disease progress. Another retrovirus is HTLV-1 which causes tropical spastic paraparesis. Another group of RNA viruses are the arenaviruses. The prototype virus of this group is lymphocytic choriomeningitis. This infection is a zoonosis, the natural reservoir being the house mouse. The disease is characterised by fever, myalgia and headache and can in some cases give encephalitis. Another disease caused by arenaviruses is lassa fever. The disease is characterised by non-specific symptoms and fever. Death occurs in 15-20% of hospitalised patients. Marburg virus disease and Ebola virus disease which are both RNA viruses are mentioned here together because they both give rise to febrile illnesses .with similar clinical manifestations. The illness is characterised by the acute onset of strong headache, severe myalgia and high fever followed by prostration. Diarrhoea is profuse and is associated with abdominal cramps and vomiting. Mortality is high. / As stated above, in some embodiments of administering said triterpenes, the said triterpene or mixture of triterpenes comprised in said medicament may be selected from the group consisting of dihydrobutyrospermol, dihydrolupe'ol and dihydroparkeol or derivatives thereof are selected from the free alcohol and an ester derivative of the triterpenes selected from the group consisting of dihydrobutyrospermol, dihydrolupeol and dihydroparkeo). Furthermore, said administered triterpene or mixture of triterpenes may be obtained by synthetically means or be an extract obtainable from a natural source selected from the group consisting of Butyrospermum parkii, Camellia japonlca, Camellia sasanqua and Thea sinensis. Interesting embodiments according to the invention relates to those, wherein the composition or medicament further comprises one or more therapeutically active agents, or where the triterpenes is administered along with one or more therapeutically active agents so as to potentiate the therapeutic action. As stated, the triterpenes may be suitable formulated for oral, parenteral, transdermal, transmucosal or topical administration. The pharmaceutical compositions for oral, topical, transdermal, transmucosal or parenteral administration may be In form of, e.g., solid, semi-solid or fluid compositions and formulated according to conventional pharmaceutical practice, see, e.g., "Remington: The science and practice of pharmacy" 20th ed. Mack Publishing, Easton PA, 2000 ISBN 0-912734-04-3 and "Encyclopedia of Pharmaceutical Technology", edited by Swarbrick, 3. & J. C. Boylan, Marcel Dekker, Inc., New York, 1988 ISBN 0-8247-2800-9. According to the invention, the triterpenes may be absorbed systemically following oral, parenteral or topical administration of said composition. In an interesting embodiment, the triterpenes exhibit their therapeutic action locally in the dermis or mucous following topical administration of said composition or triterpenes. The choice of pharmaceutically acceptable exciplents or carriers for use according to the invention and the optimum concentration thereof is determined on the basis of the selection of the triterpenes, the kind of dosage form chosen and the mode of administration. However, a person skilled in the art of pharmaceutical formulation may find guidance in e.g., "Remington: Trje science and practice of pharmacy" 20th ed. Mack Publishing, Easton PA, 2000 ISBN 0-912734-04-3. A pharmaceutically acceptable excipient Is a substance, which is substantially harmless to the individual to which the composition will be administered. Such an excipient suitably fulfils the requirements given by the national drug agencies. Official pharmacopeias such as the British Pharmacopeia, the United States of America Pharmacopeia and the European Pharmacopeia set standards for well-known pharmaceutically acceptable excipients. For topical, trans-mucosal and trans-dermal compositions, such as administration to the mucosa or the skin (dermis), the compositions for use according to the invention may contain conventional non-toxic pharmaceutically acceptable carriers and excipients including microspheres and iiposomes. Topical administration includes generally any administration to a dermis or a mucosa, sud as mucosa in the lung, nose, mouth, gastrointestinal tract, vagina, uterus and rectum. Trans-dermal and trans-mucosal administration are variations of topical administration forms, where the triterpenes penetrates the dermis or mucosa, either by passive means (such as diffusion) or by actively transporting the triterpenes through the dermis or mucosa. The topical, trans-mucosal and trans-dermal compositions for use according to the invention include an array of solid, semi-solid and fluid compositions. Compositions of particular relevance are e.g. pastes, ointments, hydrophilic ointments, creams, gels, hydrogels, solutions, emulsions, suspensions, lotions, liniments, resoriblets, suppositories, enema, pessaries, moulded pessaries, vaginal capsules, vaginal tablets, shampoos, jellies, soaps, sticks, sprays, powders, films, foams, pads, sponges (e.g. collagen sponges), pads, dressings (such as, e.g., absorbent wound dressings), drenches, bandages, plasters and transdermal delivery systems. Oral compositions according to the invention include an array of solid, semi-solid and fluid compositions. Compositions of particular relevance are e.g. solutions, suspensions, emulsions, uncoated tablets, immediate-release tablets, modified-release tablets, gastro-resistant tablets, orodispersible tablets, efferverscent tablets, chewable tablets, soft capsules, hard capsules, modified-release capsules, gastro-resistant capsules, uncoated granules, effervescent granules, granules for the preparation of liquids for oral use, coated granules, gastro-resistant granules, modified-release granules, powders for oral adminstration and powders for the preparation of liquids for oral use. Administration by the parenteral route include intravenous, Intrah, intraarticular, intraventricular, intracapsular, intraspinal, intramuscular, subcutaneous, fntradermal, buccal, sublinguat, nasal, rectal, vaginal or transdermal routes. Compositions of particular relevance are e.g. liquids, emulsions, suspensions, oils, efferverscent tablets, chewable tablets and implants. Pharmaceutically acceptable carriers and/or excipients can be water or vehicles other than water, and said other vehides can be used in the compositions and can include solids or liquids such as solvents, thickeners and powders. -Examples of each of these types of vehicles, which can be used singly or as compositions of one or more vehicles, are as follows: Emollients, such as stearyl alcohol, glycery! monoricinoleate, glyceryl monostearate, pro-pane-l,2-diol, butane-l,3-diol, cetyl alcohol, isopropyl isostearate, stearic acid, isobutyl palmitate, isocetyl stearate, oleyl alcohol, isopropyl laurate, hexyl laurate, decyl oleate, octadecan-2-ol, isocetyl alcohol, cetyl palmitate, dimethylpolysiloxane, di-n-butyl sebacate, isopropyl myristate, isopropyl palmitate, isopropyl stearate, butyl stearate, polyethylene glycol, triethylene glycol, lanolin, castor oil, acetylated lanolin alcohols, petroleum, mineral oil, butyl myristate, isostearic acid, palmitic acid, isopropyl linoleate, lauryl lactate, myristyl lactate, decyl oleate, myrisiyl myristate; typically solvents, such as water, methylene chloride, isopropanol, castor oil, ethylene glycol monoethyl ether, diethylene glycol monobutyl ether, diethylene glycol monoethyl ether, dimethyl sulfoxide, tetrahydrofuran, vegetable and animal oils, glycerol, ethanol, propanol, propylene glycol, and other glycols or alcohols, fixed oils; humectants or moistening agents, such as glycerin, sorbitol, sodium 2-pyrrolidone-5-car-boxylate, soluble collagen, dibutyl phthalate, gelatin; powders, such as chalk, talc, kaolin, starch and derivatives thereof, gums, colloidal silicon dioxide, sodium potyacrylate, chemically modified magnesium aluminium silicate, hydrated aluminium silicate, carboxyvinyl polymer, sodium carboxymethyl cellulose, ethylene glycol monostearate; gelling or swelling agents, such as pectin, gelatin and derivatives thereof, cellulose derivatives such as methyl cellulose, carboxymethyl cellulose or oxidised cellulose, cellulose gum, guar gum, 'acacia gum, karaya gum, tragacanth gum, bentonite, agar, alginates, carbomer, gelatine, bladderwrack, ceratonia, dextran and derivatives thereof, ghatti gum, hectorite, ispaghula husk, xanthan gum; polymers, such as polylacdc add or polyglycolic add polymers or copolymers thereof, paraffin, polyethylene, polyethylene oxide, polyethylene glycol, polypropylene glycol, poly-vinytpyrrolldone; surfactants, such as non-ionic surfactants, e.g. glycol and glycerol esters, macrogo! ethers and esters, sugar ethers and esters, such as sorbitan esters, ionic surfactants, such as amine soaps, metallic soaps, sulfated fatty alcohols, alkyl ether sulfates, sulfated oils, and ampholytic surfactants and lecithins; buffering agents, such as sodium, potassium, aluminium, magnesium or calcium salts (such as the chloride, carbonate, bicarbonate, citrate, gluconate, lactate, acetate, glucep-tate ortartrate). Furthermore, it is obvious that in the use according to the invention for the preparation of medicaments or dietary supplements, the above mentioned compositions may be mixed with additives such as surfactants, solvents, thickeners, stabilisers, preservatives, antioxi-dants, flavours, etc. to obtain a desirable product formulation suitable for systemic or topical administration. Similarly, a pharmaceutical or dietary supplement according to the invention may further contain such additives. Optionally, the composition may also contain surfactants such as bile salts, poiyoxyethylene-sorbitan-fatty acid esters or polyalcohol mixed chain-length fatty acid esters for improving dispersibilrty of the composition in the digestive fluids leading to improved bioavaiiability -or for obtaining the final dosage form of the composition. In addition to the formulations described supra, the compositions of the invention may also be formulated such that the release rate of the triterpenes and/or the optionally one or more active agent(s) is controlled, such as for quick release, sustained release, delayed release, slow release. Thus, the carrier or composition may be formulated as a depot preparation. Such long acting formulations may be administered by implantation (for example subcutaneously or intramuscularly) or by intramuscular Injection. Thus, for example, the compositions may be formulated with suitable polymeric or hydrophobic materials (for example as an emulsion in an acceptable oil) or ion exchange resins, or as sparingly soluble derivatives, for example, as a sparingly soluble salt. Alternatively, other pharmaceutical delivery systems may be employed. Uposomes and emulsions are well known examples of delivery vehicles that may be used to deliver compositions of the invention. Additionally, the compositions may be delivered using a sustained-release system, such as semi-permeable matrices of solid polymers containing the therapeutic agent. Various sustained-release materials have been established and are well known by those skilled in the art. Sustained-release capsules may, depending on their chemical nature, release the triterpenes from the composition for a few hours, through days and weeks up to over 100 days. EXAMPLES Example 1 Summary of the study A composition according to the Invention containing 3.1% (w/w) dihydrobutyrospermyl acetate and 2.8% (w/w) dihydrolupeyl acetate formulated in triglyceride was evaluated for possible antiviral effects against Herpes simplex virus and Influenza A virus in Monkey kidney (Vero) cells and MDCK cells, respectively (plaque assay). The composition according to the invention inhibited both viruses dose-dependently with an ICso of 40-200 ug/mL Test substance A composition according to the invention was prepared by hydrogenation and fractionation of shea butter (Butyrospermum paricii). The composition was analysed by GC-MS, El in full scan mode. A HP-5 column 30m, ID 0.25mm, 0.25fim film thickness (5% diphenyl, 95% dimethylpolysiloxane) was used. The sample was dissolved in ethyl acetate (1 mg/mL) and the components were quantitated using stigmastero) as internal standard (0.02 mg/mL solution in ethyl acetate). The composition was found to contain 3.1% (w/w) r of dihydrobutyrospermyl acetate and 2.8% (w/w) dihydrolupeyl acetate. A stock solution of the composition of the Invention was prepared for the viral experiments containing 10 mg/mL in ethanol. The compound required sonication and mild wanning to dissolve. The solution remained opalescent. Upon cooling, the compound precipitated. This precipitate was easily redissolved. Test system 1) Vero Cells for Herpes simplex type 1 virus. 2) MDCK cells for Influenza type A virus. Cytotoxicfty test The stock solution was diluted in Hank's balanced salt solution (HBSS) to concentrations of 1000 ixg/mL and 200 ug/mL. The ethano! solvent was also diluted to equivalent concentrations (i. e. 10% and 2%). Duplicate wells of 6-well plates of monkey kidney (Vero) cells and MDCK cells were inoculated with diluted compound and diluted solvent. The inoculum was removed and 3mL of medium added. The cells were examined daily for three days for cytotoxic effects. Methods The stock solution and solvent were each diluted in HBS5. The concentrations covered were 2000, 400, 80,16, 3.2 and 0.64 ng/mL compound and the corresponding 20, 4, 0.8, 0.16, 0.032 and 0.0064% ethanol. Equal volumes of diluted stock virus (Herpes and Influenza) were mixed with an equal volume of diluted compound or ethanol. Herpes and Influenza were mixed with dilutions covering the range 400 to 0.64 ng/mL (4 to 0.0064% ethanol). Triplicate wells of 6-well plates of Vero or MDCK cells were inoculated (with the Herpes or Influenza samples, respectively), with the compound (or ethanoi) virus mixtures. Three wells were inoculated with HBSS spiked with the input virus dilution. Cells inoculated with HBSS served as the negative control. After adsorption, the inocula were removed, cells rinsed once with 3mL of HBSS, and 3mL of agarose overlay medium added back. Upon development of plaques in the positive control wells, the wells were fixed and stained with Giemsa. Results The composition Inhibited both Herpes virus and Influenza virus dose-dependently with an IC-50 between 40 and 200 ng/mL in both cases. No cytotoxicity was observed at the doses employed. Example 2 Summary The composition according to the invention described in example 1 was evaluated for acute oral toxidty in the rat. At a dose of 2000 mg/kg, the substance was found not to produce toxicfly or mortality. Thus it was concluded that the LD50 was above 2000 mg/kg body weight. Test substance The composition according to the invention described in example 1 was used in this experiment. , Study description The acute orai toxidty in rats was determined according to the method recommended In the OECD guideline No 420, "Acute Oral Toxidty - Rxed Dose Method", July 1992 and the EEC Directive published in: "Official Journal of the European Communities" No: L383A, volume 35, 29.12.1992, part Bl "Acute Toxicity (Oral) - Fixed Dose Method". The study was initiated with a sighting study, in which one female rat was given 2000 mg composition/kg body weight. No clinical signs of toxicity were observed in this rat On the basis of the results of the sighting study the main study was carried out with one group consisting of 5 female rats given a dose of 2000 mg composition/kg body weight. All animals in the main study survived the treatment and showed no signs of evident toxicity. The rats had a normal body weight gain during the study period. Under the experimental conditions described in this report, it was found that the dose level tested (2000 mg composition/kg body weight), the highest dose level required, did not produce mortality. The minimal lethal dose was above 2000 mg composition/kg body weight. Example 3 Summary The composition according to the invention described in example 1 was evaluated for topical antiinfiammatory effect in the mouse phorbolester ear oedema test. The composition according to the invention inhibited ear oedema significantly at both doses tested. Objective After having demonstrated in a separate experiment that the composition according to the invention described in example 1 in vitro inhibits the secretion of inflammatory cytokines (TNF-tx and IL-6) in lipolysaccharide-stfmulated peritoneal macrophages (mouse), it was decided to test the efficacy of the composition in vivo, topically administered in the tetradecanoyl phorbol acetate (TPA) induced ear Inflammation test in the mouse, a commonly employed method for screening and evaluation of antiinfiammatory drugs. Locoid® cutaneous solution (0.1% hydrocortisone 17-butyrate) is used as a positive control. Test articles and vehicle The test articles are the composition according to the invention described in example 1 (Compound 1) and Locoid® cutaneous solution (hydrocortisone 17-butyrate) obtained from a pharmacy in Denmark. The test article is dissolved in acetone, which is used as vehicle. Animals The study is performed in female SPF NMRI mice of the stock Bom:NMRI from M & B A/S, DK-8680 Ry. Housing The study will take place jn an animal room provided with filtered air. The temperature in the room is set at 21 - 23°C and the relative humidity to £50%. The room Is illuminated to give a cycle of 12 hours light and 12 hours darkness. Light Is on from 06.00 till 18.00 h. The animals Is housed in Macrolon type HI cages ( 40x25x14 cm), nine in each cage. The cages is deaned and the bedding changed at least once a week. The animal room is cleaned and disinfected with Diverse! Bx. Bedding The bedding is sawdust (Tapvei 4HV) from Tapvei Oy, 73620 Kortteinen, Rnland. Diet A complete pelleted rodent diet "Altromin 1314" from Chr. Petersen, DK- 4100 Ringsted, is available ad libitum. Drinking water The animals will have free access to bottles, with domestic quality drinking water added citric add to pH 3. Animal randomisation and allocation On the day of arrival the animals is randomly allocated to groups, each of 10 mice. Animal and cage identification Each animal is identified by coloured marks on the tails. Each cage is marked with study number 2021, cage number, group number and animal numbers. Body weight ' The animals are weighed on day -1. Procedure The test substances are applied in 20 \i\ volumes to the inner surface of the right ear on day 0. 20 minutes before and again 20 minutes after TPA treatment. All groups are treated with 20 til acetone on the left ear and with 20 M' TPA, 400 n9/ml, on the right ear. The groups and doses are as follows: Three hours after the TPA application the mice are sacrificed, the ears cut off and weighed. Mean weights and standard deviations are calculated. Percent inhibition of the oedema compared with group A is calculated for the B, C and D. Findings Ear swelling Is determined as the difference between the weight of right and left ear. Compound 1 gave an inhibition of ear swelling of 76% and 52% at 5.0 mg/ear and 1.0 mg/ear, respectively (p Conclusion Compound 1 inhibited ear swelling dose-dependently and in the higher dose of the same size of order as the effect seen after hydrocortisone 17-butyrate. This finding is noteworthy because Compound 1 is not associated with the unpleasant adverse effects associated with glucocorticoids such as hydrocortisone 17-butyrate. Example 4 Summary The composition according to the invention described in example 1 was evaluated for systemic antiinflarnmatory effect in the carrageenin-lnduced paw oedema test in the rat. The composition according to the Invention had a significant and dose-dependent anti-inflammatory effect. Objective After having demonstrated in a separate experiment that a composition according to the invention (Compound 2) in vitro inhibits the secretion of inflammatory cytokines (TNF-a and IL-6) in lipolysaccharide-stimulated peritoneal macrophages (mouse), it was decided to test the efficacy of the substance in vivo, systemically administered in the carrageenin-induced paw oedema test in the rat, a commonly employed method for screening and evaluation of antiinflammatory drugs. Carrageenin, the phlogistic agent of choice for testing antiinflammatory drugs, is a mucopolysaccharide derived from Irish sea moss, Chondrus. Ibuprofen is used as a positive control. Test article and vehicle The test article is the composition according to the invention described in example 1 further modified so that the dihydro-triterpenes are predominantly in the form of fatty acid esters (Compound 2). Ibuprofen is obtained from Astion A/S, Denmark. The test article is dissolved in peanut oil, which is used as vehicle. Animals The study is performed in male SPF Sprague Dawley rats of the stock MolrSPRD from M & B A/S, Tombjergvej 40, DK-4623 Ulle Skensved. At start of the acclimatisation period the rats are in the weight range of 80 - 100 g. Housing The study takes place in an animal room provided with filtered air. The temperature in the room is set at 21 -23°C and the relative humidity to s. 50%. The room is illuminated to give a cycle of 12 hours light and 12 hours darkness. Light is on from 06.00 till 18.00 h. The animals are housed In Macrolon type in cages ( 40x25x14 cm) six in each cage. The cages will be cleaned and the bedding changed at least once a week. The animal room is cleaned and disinfected with Diversol Bx. Bedding The bedding is sawdust (Tapvei 4HV) from Tapvei Oy, 73620 Kortteinen, Finland. / Diet 'A complete pelleted rodent diet "Altromin 1314" from Chr. Petersen, DK- 4100 Ringsted, is available ad libitum. Drinking water The animals will have free access to bottles with domestic quality drinking water added citric acid to pH 3. Animal randomisation and allocation On the day of arrival the animals will be randomly allocated to groups, each of 10 rats. • Animal and cage identification Punched earmarks identify each animal. Each cage is marked with study number 2022, cage number, group number and animal numbers. Body weight The animals are weighed on days: -2 and 0 of dosing. Dosing The test articles or vehicle are administered orally by gavage in volumes of 20 ml per kg body weight, 0-5 minutes before injection of carrageenin into the foot. The groups and dose levels are as follows: arrageenin (from Sigma) is prepared as a 1% suspension in sterile 0.9% NaCI -solution. A volume of 0.1 ml is injected through a 25-gauge needle into the plantar tissue of the right hind paw of the rats within 5 minutes after treatment with the test articles. Measurements Immediately before the dosing and carrageenin injection and three and five hours later the foot volume Is measured using a plethysmometer LE 7500 from Letica Scientific Instruments, Spain. Clinical signs All visible signs of ill health and any behavioural changes is recorded daily during the study. Any deviation from normal is recorded with respect to time of onset, duration and intensity. Findings After three hours an inhibition of 63, 59 and 44% of the paw oedema was seen after 1000, 500, and 250 mg/kg Compound 2, respectively (p Interpretation Compound 2 inhibited paw oedema significantly and dose-dependently, and in the higher dose of the same size of order as the effect seen after 150 mg/kg Ibuprofen. This finding is noteworthy because Compound 2 is not associated with the unpleasant adverse effects associated with non-steroida! antiinflammatory drugs such as ibuprofen. We CLAIM 1. A composition comprising: i) a triterpene, or a mixture of triterpenes, selected from the group consisting of dihydrobutyrospermol, dihydrolupeol and dihydroparkeol, or derivatives thereof; and ii) one or more acceptable excipient(s) and/or carrier(s) 2. The composition according to claim 1, wherein the triterpene or mixture of triterpenes or derivatives thereof are selected from the free alcohol and an ester derivative of the triterpenes selected from the group consisting of dihydrobutyrospermol, dihydrolupeol and dihydroparkeol. 3. The composition according to any one of daims 1 and 2 wherein the ester derivative is selected from the group consisting of dnnamtc add esters, acetic acid esters and fatty add esters. 4. The composition according to any one of daims 1 and 3, wherein the triterpene or mixtures of triterpenes is in an amount of at least of 0.1 % by weight. 5. The composition according to any one of daims 1 to 4, wherein the triterpene or mixture of triterpenes is being obtained by synthetically means. 6. The composition according to any one of daims l to 5, wherein the triterpene or mixture of triterpenes is an extract obtainable from a natural source selected from the group consisting of Butyrospermum parkii, Camellia Japon/ca, Camellia sasangua and Thea sinensis. 7. The composition according to any one of daims 1 to 6 formulated as a pharmaceutical composition for oral, topical, transdermal, or parenteral administration, preferably topical or transderma! administration. 8. The composition according to any one of claims 1 to 7 formulated as a pharmaceutical, dietary supplement or a cosmetic. 9. Use of a triterpene or mixture of triterpenes selected from tiie group consisting of dihydrobutyrospermol, dihydrolupeol and dihydroparkeol, or derivatives thereof, for the preparation of a medicament, a cosmetic or a dietary supplement for immunomodulation of a mammal, 10. The use according to claim 9, wherein the immunomodulation is selected from the group of suppression of hypersensitivity and suppression of inflammatory reactions. 11. The use according to any one of claims 9 and 10, wherein the immunomodulation is associated with diseases and disorders selected from the group consisting of viral infections, bacterial infection, hypersensitivity skin diseases, atopic eczema, contact dermatitis, seborrhoeic eczema, psoriasis, IgE mediated allergic reactions, asthma, allergic rhinitis, anaphylaxis, autoimmune disease, chronic inflammatory disease, Crohn's disease, ulcerative colitis, proctitis, rheumatoid arthritis, gout, osteoarthritis, prostatitis, benign prostatic hyperthrophy, cardiovasculary diseases, hyperlipidemia or aetherosderosis, pain and cancer. 12. Use of a triterpene or mixture of triterpenes selected from the group consisting of dihydrobutyrospermol, dihydrolupeo! and dihydroparkeol, or derivatives thereof, for the preparation of a medicament, a cosmetic or a dietary supplement for the treatment of viral infections. 13. The use according to daim 12 of a triterpene or mixture of triterpenes selected from the group consisting of dihydrobutyrospermol, dlhydrolupeol and dihydroparkeol, or derivatives thereof, for the preparation of a medicament for the treatment of influenza and symptoms of influenza. 14. The use according to daim 12 of a triterpene or mixture of triterpenes selected from the group consisting of dihydrobutyrospermol, dihydrolupeol and dihydroparkeol, or derivatives thereof, for the preparation of a medicament for the treatment of herpes. 15. The use according to any one of daims 9 to 14, wherein the triterpene or mixture of triterpenes selected from the group consisting of dihydrobutyrospermol, dihydrolupeol and dihydroparkeol or derivatives thereof are selected from the free alcohol and an ester derivative of the triterpenes selected from the group consisting of dihydrobutyrospermol, dihydrolupeol and dihydroparkeol. 16. The use according to any one of claims 9 to 15, wherein the triterpene or mixture of triterpenes is being obtained by synthetically means. 17. The use according to any one of claims 9 to 15, wherein the triterpene or mixture of triterpenes is an extract obtainable from a natural source selected from the group consisting of Butyrospermum parkli, Camellia japonica, Camellia sasanqua and Thea sinensis. 18. The use according to any one of claims 9 to 15, wherein the medicament comprises a composition as defined by any one of claims 1 to 7. 19. The use according to any one of claims 9 to 18, wherein the medicament is administered by means of oral, topical, transdermal, or parenteral administration, or combinations thereof. 20. The use according to any one of claims 9 to 19, wherein said triterpenes or said mixtures of triterpenes following topical administration of said medicament is present in a mucosa or a dermis. 21. The use according any one of claims 9 to 20, wherein the medicament further comprises one or more therapeutically active agent(s), 22. A method for immunomoduiation in a mammal, such as a human, comprising the administration of a triterpene or mixture of triterpenes selected from the group consisting of dihydrobutyrospermol, dihydrolupeol and dihydroparkeol, or derivatives thereof. 23. The method according to daim 22 for the suppression of hypersensitivlty and/or inflammatory reaction in a mammal, such as a human, comprising administration to said mammal a triterpene or, mixture of triterpenes selected from thecjroup consisting of dihydrobutyrospermol, dihydrolupeol and dihydroparkeol, or derivatives thereof. 24. The method according to claim 22 for the treatment or prevention of hypersensltivity skin disease in a mammal, such as a human, comprising administration to said mammal a triterpene or mixture of triterpenes selected from the group consisting of dihydrobutyro spermol, dihydrolupeol and dihydroparkeol, or derivatives thereof. 25. The method acording to claim 24 for the treatment or prevention of atopic eczema, contact dermatitis, seborrhoeic eczema and/or psoriasis in a mammal, such as a human, comprising .administration to said mammal a triterpene or mixture of triterpenes selected from the group consisting of dihydrobutyrospermol, dihydrolupeol and dihydroparkeol, or derivatives thereof. 26. The method according to claim 22 for the treatment or prevention of IgE mediated allergic reaction and/or condition in a mammal, such as a human, comprising administration to said mammal a triterpene or mixture of triterpenes selected from the group consisting of dihydrobutyrospermol, dihydroiupeol and dihydroparkeol, or derivatives thereof. 27. The method according to daim 26 for the treatment or prevention of asthma, allergic rhinitis, and/or anaphylaxis in a mammal, such as a human, comprising administration to said mammal a triterpene or mixture of triterpenes selected from the group consisting of dihydrobutyrospermol, dihydroiupeol and dihydroparkeol, or derivatives thereof. 28. The method according to claim 22 for the treatment or prevention of an autoimmune disease and/or chronic inflammatory disease in a mammal, such as a human, comprising administration to said mammal a triterpene or mixture of triterpenes selected from the group consisting of dihydrobutyrospermol, dihydroiupeol and dihydroparkeol, or derivatives thereof. 29. The method according to daim 28 for the treatment or prevention of diabetes, Crohn's disease, ulcerative colitis, rheumatoid arthritis, gout or osteoarthritis in a mammal, such as a human, comprising administration to said mammal a triterpene or mixture of triterpenes selected from the group consisting of dihydrobutyrospermol, dihydroiupeol and dihydroparkeol, or derivatives thereof. 30. The method according to daim 22 for the alleviation of pain in a mammal, such as a human, comprising administration to said mammal a triterpene or mixture of triterpenes selected from the group consisting.of dihydrobutyrospermol, dihydroiupeol and dihydroparkeol, or derivatives thereof. 31. The method according to claim 22 for the treatment or prevention of prostatitis or benign prostatic hypertrophy in a mammal, such as a human, comprising administration to said mammal a triterpene or mixture of triterpenes selected from the group consisting of dihydrobutyrospermol, dihydroiupeol and dihydroparkeol, or derivatives thereof. 32. The method according to daim 22 for the treatment or prevention of viral or bacterial infection in a mammal, such as a human, comprising administration to said mammal a triterpene or mixture of triterpenes selected from the group consisting of dihydrobutyro spermol, dihydroiupeol and dihydroparkeol, or deivatives thereof. 33. The method according to claim 22 for the treatment or prevention of cardiovascular disease in a mammal, such as a human, comprising administration to said mammal a triterpene or mixture of triterpenes selected from the group consisting of dihydrobutyro- spermol, dihydrolupeo! and dihydroparkeol, or derivatives thereof. 34. The method according to claim 22 for the treatment or prevention of cancer in a mammal, such as a human, comprising administration to said mammal a triterpene or mixture of triterpenes selected from the group consisting of dihydrobutyrospermol, dihydrolupeol and dihydroparkeol, or derivatives thereof. 35. A method of treating viral infections in a mammal, such as a human, comprising the administration of a triterpene or mixture of triterpenes selected from the group consisting of dihydrobutyrospermol, dihydrolupeol and dihydroparkeol, or derivatives thereof. 36. The method according to daim 35 for the treatment of influenza and symptoms of influenza. 37. The method according to daim 35 for the treatment of herpes. 38. The method according to any one of daims 22 to 37, wherein the derivative of any one of the group selected from dihydrobutyrospermol, dihydrolupeol and dihydroparkeol is an ester. 39. The method according to any one of daims 22 to 38, wherein the triterpene or mixture of triterpenes is being obtained by synthetically means. 40. The method according to any one of claims 22 to 39, wherein the triterpene or mixture of triterpenes is an extract obtainable from a natural source selected from the group consisting of Butyrospermum parkii, Camellia japonfca, Camellia sasanqua and Thea sinensis. 41. The method according to any one of claims 22 to 40, wherein the triterpene or mixture of triterpenes selected from the group consisting of dihydrobutyrospermol, dihydrolupeol and dihydroparkeol, or derivatives thereof Is a composition as defined by any one of daims 1 to 7. 42. The method according to any one of claims 22'to 41, wherein the triterpene or mixture of triterpenes selected from the group consisting of dihydrobutyrospermol, dihydrolupeol and dihydroparkeol, or derivatives thereof is administered by means of oral, topical, transdermal, or parenteral administration, or combinations thereof. 43. The method according to any one of claims 22 to 42, wherein said triterpenes or said mixtures of triterpenes following topical administration is present in a mucosa or a dermis. 44. The method according any one of claims 22 to 43 further comprising one or more therapeutically active agent(s). 45. A method for ttie preparation of a composition, a dietary supplement or a cosmetic as defined by any one of claims 1 to 7, comprising obtaining an extract containing butyrospermol, lupeol and/or parkeol from a suitable vegetable source; subjecting the extract to hydrogenation and optionally to purification/concentration; and subsequently formulating the extract with one or more suitable cam"er(s) and/or excipient(s). 46. A method according to daim 29, wherein the vegetable source is Butyrospermum park/7, Camellia japonica. Camellia sasanqua or Thea sinensis.

Documents:

01265-delnp-2003-abstract.pdf

01265-delnp-2003-claims.pdf

01265-delnp-2003-correspondence-others.pdf

01265-delnp-2003-description (complete).pdf

01265-delnp-2003-form-1.pdf

01265-delnp-2003-form-18.pdf

01265-delnp-2003-form-2.pdf

01265-delnp-2003-form-3.pdf

01265-delnp-2003-form-5.pdf

01265-delnp-2003-gpa.pdf

01265-delnp-2003-pct-409.pdf

01265-delnp-2003-pct-416.pdf

01265-delnp-2003-pct-search report.pdf

1265-DELNP-2003-Abstract-(18-07-2007).pdf

1265-DELNP-2003-Claims-(18-07-2007).pdf

1265-DELNP-2003-Correspondence-Others(15-01-2008).pdf

1265-DELNP-2003-Correspondence-Others-(18-07-2007).pdf

1265-DELNP-2003-Form-1-(18-07-2007).pdf

1265-DELNP-2003-Form-2-(18-07-2007).pdf

1265-DELNP-2003-Form-3-(18-07-2007).pdf

1265-DELNP-2003-GPA-(18-07-2007).pdf