JPH05508655A - Compositions consisting of vitamin D precursors, their analogs and their uses - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

[Detailed description of the invention] Compositions comprising vitamin D precursors, analogs thereof and uses thereof field The present invention is in the field of cosmetics and medicinal chemistry. In particular, the present invention provides vitamins throughout the year. D1 relates to topical compositions providing derivatives and analogues thereof. in another manner The present invention relates to a method for producing previtamin D1 derivatives and analogues thereof. do. The topical compositions of the invention are useful for users in high northern and southern latitudes, both in winter and throughout the year. Even when exposed to low-energy sunlight in the morning and evening of and D1 to produce their derivatives and analogues. This method uses low levels of ultraviolet light Previtamin D1 and their derivatives and analogues, respectively, are photodifferent when exposed to tachysterol and lumisterol, their derivatives and analogues use.

Background of the invention Vitamin D3 is provitamin D, the direct biological precursor of cholesterol. , (7-dihydrocholesterol). When properly exposed to sunlight Food supplements are usually not necessary. Holick et al., Braunwald et al., Harrison Woman. ・Principles of Internal Medicine, 11th edition, Matsufugrow - Hill, pp. 1857-69 (1987). However, all individuals are particularly Not all humans are exposed to adequate levels of sunlight in the winter.

When the skin is exposed to sunlight or artificial ultraviolet (UV) radiation, UV radiation penetrates into the body and causes various biochemical reactions. From provitamin Ds to vitamin D Conversions of are involved in these reactions. Electromagnetic energy with a wavelength of 290-315 nm Ghee is absorbed into provitamin D, its fragment into previtamin Ds. tion occurs. Previtamin Ds is biologically inactive, but it It is unstable and spontaneously undergoes a temperature-dependent rearrangement to form heat-stable vitamin D3. Ikuai After adulthood, vitamin D3 is transferred from the epidermis into the circulation via vitamin D-binding proteins. Ho Ritt et al., Science, Vol. 211, No. 590-593M (1981), Ho’) Tsuku et al., Braunwald et al., Harrison’s Principles of Inter. Null Medicine, 11th Edition, Matsuf Grow-Hill, pp. 1857-69 (1 987).

Factors often thought to influence skin synthesis of vitamin D include age, altitude, Includes geographic location, date and time, and area of sun exposure. Most of these factors The common feature is that 29o is necessary to convert provitamin D to vitamin D3. - Availability of the required amount of ultraviolet radiation with an energy of 315 nm. Matsuku Rollin et al., Science, Vol. 216, pp. 1001-1003 (1982) .

in the skin and previtamin D3, its light-induced conversion to vitamin D3. The availability of vitamin D precursors for vitamin D is an effective physiological source of vitamin D and its supplement. It is a charging mechanism. However, during winter at high northern latitudes, sunlight can act as a barrier to human skin. To convert tamin D3 (7-dihydrocholesterol) to previtamin D, does not contain sufficiently high levels of UV radiation for Journal of Endocrinol Metabolism, Volume 67, No. 373-3 78 pages (1988)). As a result, individuals at these latitudes Even humans cannot produce vitamin D3 in their own skin. Moderate UV exposure Deficiency in blood calcium is associated with severe vitamin D deficiency and concurrent hypokalemia. increases the likelihood of damage to the system and bone calcium wasting.

Skin vitamin D precursor and previtamin D3 and its conversion to vitamin D3 The possibility of light-induced conversion makes it an effective physiological source of vitamin D3 and its replenishment mechanism. be. Previously, the only way to produce previtamin D3 was to convert provitamin D3. It was thought that it was the right thing to do. This conversion is performed in sunlight or in the 290-315 nm region. artificial UV light is required. Therefore, the available light energy is below this range. (wavelengths greater than 316 nm), conversion does not occur to a significant extent. Ko Bayashi et al., Journal of Nutritional Science and Vitaminology, Vol. Volume 19, page 123 (1973).

Hydroxylated metabolites of provitamin D compounds for the skin in combination with UV phototherapy Quality topical application provides vitamin 0 substance award for patients suffering from vitamin D metabolic disorders It has been reported that one method of continuous administration is Association of American Physicians Vol. 42, pp. 54-63 (1979), Molecula Town Endocrinolo Zee, Matsukintyre and Scherga, Elsepier/North Poland Iomedical Press, pp. 310-308 (1979)). hydroxide probi When applying vitamins and emitting ultraviolet light, they are then heated to hydroxylated vitamin D. Converts to isomerized hydroxylated previtamins. This study was carried out by Politsuk et al. English Journal of Medicine, Volume 301, Nos. 349-354 3j (1980) Oyohi American Patent No. 4.310.511 (1982 12th of the month).

1.25-Dihydroxyvitamin D3 and its analogs are effective in treating the proliferative disorder xerosis. It has been shown to be a potent antiproliferative agent that is effective in the treatment of acne scars (Dell, H., Federation Proceedings (Federation of American ・Society for Experimental Biology), Volume 2, No. pp. 224-236 (1988), Politz, DeKroot et al., Endocrinol Volume 2 [pp. 902-926, Gurung and Stratton, New York, New York] York (1988), Morimoto et al., British Journal of Der. Matology, Vol. 115, pp. 421-429 (1986), Politsuk, Art. Chives of Dermatology, Volume 125, Pages 1692-1697 (19 1989)).

Hungarian Patent No. 102,939 discloses that vitamin D is converted into Cosmetic creams containing provitamin D (e.g. nilgostrol) that convert are doing.

Macrolin et al., Science, pp. 216, 1001-1003 (1982 (2013) on human skin and skin after exposure to narrow band radiation or simulated solar radiation. describes the synthesis of provitamin D3 to previtamin D3 in organic solvents and organic solvents. .

Exposure of human skin or organic solvent containing provitamin D3 to 295 nm radiation In this case, more than 65% of provitamin D was converted to previtamin D3. Sara The authors concluded that the optimal wavelength for the production of previtamin D3 is 295nm-300nm. It is stated that

Dauben et al., Journal of the American Chemical Society, Vol. Vol. 04, pp. 5780-5781 (1982), Journal of America Chemical Society, Vol. 104, pp. 355-356 (1982) ) shows the wavelength effect on the photochemistry of provitamin D3 and the production of previtamin D3. It describes the wavelength effect of The author states that provitamin D3 is When exposed to I discovered that it was a roll. This mixture is then exposed to 300 nm light, a broad band Pre-vitamin D by exposure to either 350 nm light or 355 nm light 3 increased. Dauben et al. first exposed provitamin D to 0°C with 254 nm light. Radiating Provitamin D3% Previtamin D8, Taxerol and Lumiste When the roll is obtained and the mixture is then irradiated with 350 nm light (0 °C), it has a maximum of 83 % of previtamin D.

Malatesta et al., Journal of American Chemical Science, Vol. Volume 103, pp. 6781-6783 (1981) describes the production of provitamin D3. The effect of various UV wavelengths on the relative amounts of photon substances produced is described.

Politsuk et al. Photochemical conversion is the primary mechanism for preventing vitamin D3 toxicity after single, prolonged sun exposure It is stated that this is a significant factor. Politsuk et al., Science, Vol. 211, No. 5 pp. 90-592 (1981). A direct inference to this finding is that lumisterol and It is thought that vitaxterol is stripped from the skin during the natural metabolism of epidermal cells2. It is a biologically inert substance of the species.

Provitamin D2 (ergosterol) is a precursor of vitamin D2. Vita MinD2 is used to fortify foods like milk and multivitamins One of the main types of vitamin D.

Summary of the invention The present invention relates to lumisterol and taxisterol, their analogs and derivatives. Topical formulations containing previtamin D1 provide individuals with their derivatives and analogs. Concerning the discovery that it is an effective means of The present invention provides lumisterol and tar Previtamin D1 from kisterol, their analogs or derivatives respectively In the skin, vitamin D1 and It is utilized as a method for producing these analogs or derivatives. This new discovery is due to low It also solves the problem of producing vitamin D compounds through the skin in the area of light energy. It is.

In particular, the present invention converts vitamin D analogs in the presence of low energy UV light. For lumisterol and tachysterol, their derivatives and analogues Ru. The invention also provides lumisterol and/or taxisterol, their inducers. A pharmaceutical composition comprising a conductor or analog and a pharmaceutically effective carrier is directed.

The present invention also provides for providing vitamins to an individual by administering the pharmaceutical composition of the present invention to the individual. D. is directed to methods of producing analogs or derivatives thereof.

The present invention also relates to skin proliferative disorders including dry noodles, wound healing and inhibition of scar formation. A method of treating a patient with a pharmaceutical composition of the present invention.

The invention also applies to diabetic foot ulcers, decubitus ulcers, genitourinary ulcers and A method of treating ulcers, such as ulcerative keratitis, with the pharmaceutical compositions of the present invention is directed.

Brief description of the drawing Figure 1 shows the photochemical conversion of provitamin D to vitamin D and Lumistero 3. If the bond between is a single covalent bond and X is hydrogen, then the compound Belongs to Min D3. The bond between C-22 and C-23 is a double covalent bond, and X is methyl , the compound belongs to the D= family, eg vitamin D.

Figure 2 shows the provitamin D3 control solution (A) and sunlight exposure on one winter day. Figure 2 depicts the HPLC trace of a solution of provitamin D3 (CB) prepared in the following manner.

Figure 3 shows the control solution of tachysterol (A) and the exposure to sunlight on one winter day. Figure 2 depicts the HPLC trace of a solution of tachysterol (B).

Figure 4 shows a control solution of lumisterol (A) and a sample of lumisterol exposed to sunlight on one winter day. Figure 3 depicts the HPLC trace of a solution of lumisterol (B).

Description of preferred embodiments The active compounds utilized in the present invention include tachysterol, lumisterol and their , either alone or in combination. tachysterol and lumisterol derivatives have the following formulas (I) and (■), respectively, [in the formula , the bond between C-22 and C-23 is a single or double bond, and X is hydrogen, methyl or or ethyl, and R1 is hydrogen or 1-20 glycosidic units per residue. linear or branched glycoside residues containing, or R1 is of formula (m) (II) [Wherein, A represents glucofuranosyl or glucopyranosyl ring, R2 is hydrogen, Lower (CI-04) alkyl, C, -Cr. Aralkyl or C, -C,.

aryl, and R3 is hydrogen or a straight or branched chain containing 1-20 glycosidic units per residue chain glycoside residues, is an orthoester glycoside moiety].

These compounds are responsible for the production of previtamin D, the precursor of biologically active vitamin D. It is an isomer. Taxisterol and lumisterol are available from the biochemistry of Horitzk et al. Story, Vol. 18, pp. 1003-1008 (1979). It can be produced by such photoisomerization and isolation. Corresponding glycoside Similar methods for producing and orthoester glycoside derivatives are described, for example, by Hollik et al. As taught in U.S. Patent Nos. 4.410.515 and 4.521,410 , the description of which is fully incorporated herein by reference.

Taxisterol and lumisterol analogs of the present invention each have the following formula (IV ) [In the formula, the bond between C-22 and C-23 is a single or double bond, Y is hydrogen, F, C H3, CH, CH, or Xl, U is hydrogen, -OH or 10-CCV-C4a Lukil)-OH.

Zl is F, H or X'% Q" is CF, or CH, Xl.

Q5 is CF or CH, where XI is selected from groups containing hydrogen, OH and OR+, where R1 is hydrogen or linear or branched glycosylation containing 1-20 glycosidic units per residue. or R1 is represented by the formula (■) [wherein A is glucofuranosyl or glucopyramid] Represents a nosyl ring, R2 is hydrogen, lower C, -C4 alkyl or aryl ( is phenyl or chloro, fluoro, bromo, iodo, lower CI C4 alkyl phenyl substituted with Cl-C4 alkoxy, or naphthyl) and R8 is hydrogen or a straight chain containing 1-20 glycosidic units per residue or is a branched glycosidic residue] is an orthoester glycoside moiety, and W is CH-CHs* or O.

V is CH, or O (W and ■ are both not O), and r===J is Either a single bond between Qo and Qo or a hydrogen atom on Qo and Q1] has.

These compounds are previtamins that are precursors to biologically active vitamin D analogs. It is a photoisomer of the N-D analogue.

Particular examples of vitamin D analogs include, for example, Hollick et al., U.S. Pat. No. 511 (January 12, 1982), Bartridge et al., U.S. Patent No. 4,63 4, No. 692 (1987), Yamada, Japan Publication No. J5 5111-460 No., Dell et al., U.S. Patent No. 4.719.205 (1988), Holick et al., U.S. Pat. No. 4,410.515 (1983), Holick et al., U.S. Pat. No. 4,521,410 (1985), Holick et al., U.S. Pat. ．． 230゜701, and C.6. Archives of Biochemist Lee and Biophysics, Vol. 220, p. 90 (1983). , the disclosure of which is incorporated herein by reference in its entirety. Corresponding Glico Methods for producing side and ortho ester glycoside vitamin D analogs include, for example, Rick et al., U.S. Patent Nos. 4,410.515 and 4,521,410. , the disclosure of which is fully incorporated herein by reference.

Taxisterol and lumisterol analogues have been described in Biochemistry by Hollick et al. -, Vol. 18, pp. 1003-1008 (1979). can be produced by photoisomerization of essential provitamin D analogues.

Taxisterol, lumisterol and the like in topical compositions according to the invention. living in areas of low solar energy by administering an effective amount of the analogue or derivative. Produces vitamin D through the skin of the individual, that is, prevents the decline of effective vitamin D. For the first time, we have made it possible to provide a method to Therefore, the composition of the present invention Osteomalacia due to MinD deficiency and calcium disorders resulting from vitamin D deficiency ( Vitamin D deficiency deficient intestinal absorption of calcium resulting in hypocalcemia ), glucocorticoid-induced decrease in calcium absorption, osteoporosis, calcium Senile decrease in absorption, hypoparathyroidism, milk fever, turkey weak leg disease It can be used in a method to treat or prevent the like.

The present invention also heals wounds and inhibits scar formation, and the taxisterol or The proliferation of skin containing dried noodles by administering an effective amount of lumisterol or lumisterol analogues Treat sexual disorders! provide a method to do so. Integumentary wounds include cuts, punctures and corneal lacerations Including lacerations. The present invention also provides tachysterol or lumisterol of the present invention. By administering an effective amount of this analogue, diabetic ulcers of the feet, decubitus ulcers ( ), provides treatment for ulcers such as genitourinary ulcers and ulcerative keratitis. ulcerative horn Inflammation is caused, for example, by long-term use of contact lenses.

Genitourinary ulcers treated with tachysterol or lumisterol analogues of the invention For example, herpes simplex virus and other viral, fungal and bacterial infections. including those caused by Harrison's Principles of Interna Le Medin, E. Braunwald et al. (Publishers), Matsuf Grow-Hill Books. Ku Corporation, New York, New York (1987), No. 51 See pages 4-516.

Taxisterol and lumisterol analogs include 1-hydroxytaxerol 7.1-Hydroxytaxerol 8.1-Hydroxylumistyrol 2.1- Hydroxyl mistyrol s, 1. 24-dihydroxytaxerol! ,1 ．． 24-dihydroxytaxerol, 1,24-dihydroxyl mysterol 2.1.24-dihydroxylmisterol 8.1,25-dihydroxylmisterol Sterol z, 1.25-dihydroxytaxerol s, 1. 25- Jihee Droxylmisterol 2.1.25-dihydroxylmisterol s, 24. 25-dihydroxytaxerol 2.24.25-dihydroxytaxerol 3.24. 25-dihydroxylmisterol 2.24,25-dihydroxy Silmisterol 3.25.26-dihydroxytaxterol 2.25.26 -Dihydroxytaxerol 8.25.26-Dihydroxylmisterol! , 25.26-dihydroxylmisterol 3.1,24.25-)dihydrox Sitaxerol 2.1゜24.25-trihydroxytaxerol 1.1, 24.25-trihydroxylumistyrol 2.1. 24. 25-trihydride Roxymistyrol 3.2-β-(3-hydroxypropoxy)-1 alpha 325-dihydroxytaxerol 2.2-β-(3-hydroxypropoxy )-1 alpha, 25-dihydroxytaxterol 3.2-β-(3-hydro xypropoxy)-1 alpha.

25-dihydroxylmisterol 2.2-β-(3-hydroxypropoxy) -1 alpha, 25-dihydroxylmisterol 3, and 1,25-dihyde Roxitachysterol! , 1. 25-dihydroxytaxterol s, 1.2 5-dihydroxylmisterol z, 1,25-dihydroxylmisterol 8 ．． 1-Hydroxytaxerol 2.1-Hydroxytaxerol 3.1-Hydroxytaxerol The side chain fluorocarbons of droxylamistyrol 2 and 1-hydroxylamistyrol 3 Contains derivatives. In addition, 20-oxa-1α(OH)taxerol 2.20- Oxa-1α(OH)Taxterol 3.20-Oxa-1α(OH) Lumiste Roll 2.20-Oxa-1α (OH) Lumisterol 3.20-Oxa-1α , 25 (OH) 2 Takis f low/L#! , 20-Oki? -1a, 25 (OH )! 9ki 7. Tail, 20-r Kisa-1a, 25 (OH), Lumis+o -/l/,, 20-f K+-1a, 25 (OH)z Lumisterol 3.22- Oxa-1α(OH)Taxterol 2.22-Oxa-1α(OH)Taxterol Roll 3.22-Oxa-1α (OH) Lumisterol 2.22-Oxa-1α (oH) Lumisterol 8.22-Oki4j-1a.

25 (OH)z tachysterol? ,22-oxa-1α,25(OH)zta Kisterol 3.22-oxa-1α, 25 (OH)t Lumisterol 2 and 20- and 22-oxa-1α, 25(OH)zlumisterol, Contains 22-oxataxerol and lumisterol derivatives. Also, 1.2 4-dihydroxy-25,26-dihydrotachysterol 3.1,24-dihyde Roxy-25゜26-dihydrotachysterol 2.1.24-dihydroxy-2 5,26-dehydrolumisterol, and 1,24-dihydroxy-25,2 25.26 cycloprobyl compounds containing 8-dehydrolumisterol 2 are also included in the present invention. Included within the scope of.

Primarily among the individuals that can be treated with the compositions of the invention are humans. However, the invention is not so limited. of the composition of the invention Any animal that would benefit from treatment is within the spirit and scope of this invention.

Using tachysterol and lumisterol analogs in topical compositions according to the invention This allows individuals living in areas with low solar energy to receive vitamin D through the skin. For the first time, it has become possible to provide a method for producing Therefore, the composition of the present invention Treatment of positional and diabetic ulcers, ulcerative keratitis, treatment of dry noodles, wound healing, scars Treatment of bone dysplasia due to acquired or genetic disorders of vitamin D metabolism treatment or prevention, glucocorticoid-induced decrease in calcium absorption, osteoporosis, Senile decrease in calcium absorption, hypoparathyroidism, milk fever, turkey weakness It can be used in methods to treat cancer disease.

The compounds of the invention can be placed in any pharmacological carrier for topical or intravenous administration. can be administered. The single dose administered depends on the age, health condition and severity of the recipient. It depends on the amount and the nature of the desired effect.

The topical compositions of the present invention contain at least 0. 1 microgram, preferably less The skin contains at least about 10 micrograms to about 100 mg of vitamin D precursor/carrier g. Applied for administration to the skin. A more preferred range is tachysterol, lumi About 1 microgram to about 1 milligram of sterol or analog or derivative thereof between ram/carrier g.

Compositions of the invention formulated for intravenous administration are at least physiologically acceptable. at least about 0.1 of the vitamin D precursor or analogue precursor per ml of solution. micrograms, preferably about 1. Contains from 0 micrograms to approximately 100 mg obtain. The most preferred range is taxerol, lumisterol per ml of solution. or an analog or derivative thereof from about 1.0 micrograms to about 100 micrograms. It's rum.

Compounds are water, glycerin, alcohol, propylene glycol, fatty alcohols , gels, softeners containing carriers such as triglycerides, fatty acid esters or mineral oil. Can be used in pharmacologically inert topical carriers including salves or creams . Others include liquid petrolatum, isopropyl palmitate, polyethylene glyco ethanol 95%, polyoxyethylene monolaurate 5% in water, laurate in water Carriers such as 5% sodium chloride sulfate are also possible. Antioxidant, wetting agent, viscosity stabilizer Minerals such as fixatives can also be added if necessary.

Alternatively, the compound may be exposed to harmful high-energy UV radiation (below 315 nm) selectively blocks mid- and low-energy UV radiation (above 315 nm) ) (This is a pre-prevention of lumisterol, taxerol or their analogs or derivatives). Enough energy to photoisomerize to Tamine D or its analogs and derivatives. It can be used as part of a sunscreen lotion.

Alternatively, the compounds of the invention absorb radiation at energies up to 360 nm. Added to a wide range of sunscreens. such sunscreen roller 1 may include all that are familiar to those of ordinary skill in the art. is ethyl p-aminobenzoate (pensicaine), p-aminobenzoic acid (PAB A), octyl methoxycinnamate (PARASOL “MCX), butyl cinnamate Toxidibenzoylmethane (PARASOL” 1789), salicylic acid Nil (sarcol), 2-ethoxyethyl p-methoxycinnamate, p-7 minoan Glyceryl zoic acid ester, 2,4-dibenzoylresorcinol, octyldi Methyl PABA, oxybenzone, benzophenones, methyl anthranilate, Cinoxate, amyldimethyl PABA, homomenthyl salicylate, digaloyl Triolate, ethyl-p-glycosilimidobenzoic acid and red veterinary petrolatum is included. For other examples, see Algra et al., International Journal of Dermatology - Volume 17: 628-634 (1978), Sayi, R. M. et al., Photochemistry and Photobiology, Volume 29: 559- See page 566 (1979).

Preparations for parenteral administration include sterile or aqueous or non-aqueous solutions, suspensions, and milk. Contains agents. Examples of nonaqueous solvents include propylene glycol, polyethylene glycol, oils, vegetable oils such as olive oil and injectable organic esters such as ethyl oleate. It's tell. Aqueous carriers include water, alcohol, including saline and buffered media. /water solution, emulsion or suspension. Parenteral vehicle is sodium chloride solution , Ringer's Dextrose, Dextrose and Sodium Chloride, Lactated Ringer's Contains oil or fixed oil. Intravenous media may include, for example, Ringer's dextrose. Including liquid nutrient replenishment and electrolyte-based replenishment. Preservatives and e.g. antibacterials Other additives such as antioxidants, chelating agents, inert gases, etc. may also be present. obtain. Generally, Remington's Pharmaceutical Sciences, 16 See ed., Mag Eds, 1980.

Taxerol and/or lumisterol formulated for parenteral administration Compositions containing analogues or derivatives thereof can be used in the skin as medium and low energy - enables individuals to produce vitamin D analogs or derivatives in the presence of UV radiation can be used to provide vitamin D analogue precursors for

The invention further includes an active vitamin D compound as required immediately prior to dosing to the individual. Taxisterol and lunates that can be exposed to UV radiation to allow the production of solutions. Concerning solutions containing mysterol and its analogues and derivatives. This method is , avoiding the degradation of vitamin D and its analogues that occurs in solution. Compounds of the present invention Solutions that may be included may include the parenteral solutions described above. Of course lumisterol and Solutions containing tachysterol analogues may contain tachysterol and lumisterols. an opaque container to avoid premature conversion of the analogue to the corresponding vitamin D analogue. Must be stored in a container.

Although the present invention has been generally described above, the present invention can be further understood by reference to the following embodiments. It is better understood. Examples are provided herein for illustrative purposes only, and in particular It is not intended to be limiting unless otherwise specified.

Example 1 Crystalline provitamin D, dissolved in methanol at a concentration of 10 micrograms/ml did. 10 ml of this solution was placed in a quartz test tube. Provitamin D in methanol One test tube containing (Figure 2B), exposed to direct sunlight, and the other similar sample for a similar time (Figure 2A), in the dark. Saved to. At the end of the exposure, remove a small aliquot from each test tube and Following Laughlin et al., Science 216:1001-1003 (1982) and separated by high performance liquid chromatography. Similar research has been reported (Holli et al. Prepared by K et al., Biochemistry Volume 18: pp. 1003-1008 (1979) lumisterol (Fig. 4) and tachysterol (Fig. 3). Figure 2 -4, all chromatograms were analyzed using tachysterol and lumisterol. pre-vitamin Ds when exposed to sunlight between 9 and 10 a.m. in November. (Figures 3B and 4B) reveal that photoisomerization occurs.

In contrast, provitamin D3 exposed to the same direct sunlight is similar to previtamin Ds (Fig. 2B) did not change. All samples kept in the dark for the same amount of time D, (Figures 2A, 3A, 4A) remained unchanged.

The tachysterol and lumisterol analogs of the present invention have the same low strength and energy It is expected that when irradiated with UV light of ghee, it will give the corresponding analogue. .

Although the present invention has been generally described above, the present invention does not include the spirit or scope of the invention or its specifics. may be implemented in various embodiments and modifications without affecting the It is clear to those skilled in the art that

FIG 1 Holding time M (minutes) FIG 2 Retention time (min) FIG 3 Retention time (min) FIG 4 abstract A method of providing an active vitamin D composition to an individual is disclosed. Individuals have skin exposure to sunlight to produce vitamin D and its analogs and derivatives.

Contains lumisterol and/or tachysterol and their analogs and derivatives Pharmaceutical compositions are also disclosed.

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Claims (57)

[Claims] 1. Pharmaceutically acceptable carriers and formulas▲Mathematical formulas, chemical formulas, tables, etc.▼ compound of [In the formula, the bond between C-22 and C-23 is a single or double bond, X is hydrogen, methyl or ethyl, R1 is hydrogen or a straight or segmented chain containing 1-20 glycosidic units per residue. The branched glycoside residue or R1 is an orthoester glycoside moiety represented by the following formula minutes ▲Contains mathematical formulas, chemical formulas, tables, etc.▼ (In the formula, A represents glucofuranosyl or glucopyranosyl ring, R2 is hydrogen, Lower (C1-C4) alkyl, C7-C10 aralkyl or C6-C10 ali rule, R3 is hydrogen or a straight or branched chain containing 1-20 glycosidic units per residue. branched glycoside residues)], The compound is effective in providing vitamin D3 when the composition is administered to an individual. A composition present in an amount. 2. 2. The composition of claim 1, wherein said compound is Lumisterol 3. 3. 2. The composition of claim 1, wherein said carrier is effective for topical administration. 4. The composition of claim 3 further comprising one or more sunscreen agents. thing. 5. 2. The composition of claim 1, wherein said carrier is effective for parenteral administration. 6. Claim 1, wherein said compound is present in an amount of from 0.00001 to 10% by weight. Composition of. 7. Claim 1, wherein said compound is present in an amount of 0.0001 to 0.01% by weight. composition. 8. Pharmaceutically acceptable carriers and formulas▲Mathematical formulas, chemical formulas, tables, etc.▼ compound of [In the formula, the bond between C-22 and C-23 is a single or double bond, and X is hydrogen , methyl or ethyl, R1 is hydrogen or a straight or segmented chain containing 1-20 glycosidic units per residue. The branched glycoside residue or R1 is an orthoester glycoside moiety represented by the following formula minutes ▲Contains mathematical formulas, chemical formulas, tables, etc.▼ (In the formula, A represents glucofuranosyl or glucopyranosyl ring, R2 is hydrogen, Lower (C1-C4) alkyl, C7-10 aralkyl or C6-C10 ary le, R3 is hydrogen or a direct product or fraction containing 1-20 glycosidic units per residue branched glycosidic residues)], The compound is effective in providing vitamin D3 when the composition is administered to an individual. A composition present in an amount. 9. 9. The composition of claim 8, wherein said compound is taxerol-3. 10. 9. The composition of claim 8, wherein said carrier is effective for topical administration. 11. 11. Further comprising one or more sunscreen agents. Composition. 12. 9. The composition of claim 8, wherein said carrier is effective for parenteral administration. 13. Claim 8, wherein said compound is present in an amount of 0.00001 to 10% by weight. composition. 14. Claim 8, wherein said compound is present in an amount of 0.0001 to 0.01% by weight. Compositions as described. 15. lumisterol and tachysterol are present in the body when the composition is administered to an individual. lumisterol and taxerol present in an amount effective to provide MinD3 and a pharmaceutically acceptable carrier. 16. 16. The composition of claim 15, wherein the carrier is effective for topical administration. 17. 16. The composition of claim 15, wherein said carrier is effective for parenteral administration. 18. The above lumisterol and tachysterol are 0.00001 to 10% by weight 16. The composition of claim 15, wherein the composition is individually present in an amount of %. 19. The above lumisterol and tachysterol are 0.001 to 0.01 weight 16. The composition of claim 15, wherein the composition is individually present in an amount of %. 20. The pharmaceutical composition according to any one of claims 1, 8 and 15 is administered to an individual, A method of supplying vitamin D3 to an individual comprising exposing the body to UV radiation. 21. 21. The method of claim 20, wherein said composition is administered by topical methods. 22. Claims wherein the composition further comprises one or more sunscreen agents The method according to item 21. 23. 21. The method of claim 20, wherein said composition is administered by intravenous means. 24. The above UV radiation is insufficient to convert provitamin D to vitamin D. 21. The method of claim 20, wherein the method is provided by sunlight of a specific intensity and wavelength. 25. 25. The method of claim 24, wherein the UV radiation has a wavelength above 315 nm. . 26. Administering the pharmaceutical composition according to any one of claims 1, 8, and 15 to an individual, Vitamin D deficiency in individuals, including exposure to low-energy ultraviolet light, glucocor ticoid-induced calcium hypoabsorption, osteoporosis, senile calcium hypocalcemia, Calcium caused by hypoparathyroidism, milk fever, or turkey weak legs Treatment and prevention method for osteomalacia caused by umbilicus disorder. 27. 27. The method of claim 26, wherein said composition is administered by topical means. 28. Claims wherein the composition further comprises one or more sunscreen agents The method according to item 27. 29. 27. The method of claim 26, wherein said composition is administered by intravenous means. 30. The above UV radiation is insufficient to convert provitamin D to vitamin D. 27. The method of claim 26, wherein the method is provided by sunlight of an intensity and wavelength. 31. 31. The method of claim 30, wherein the UV radiation has a wavelength above 315 nm. . 32. Pharmaceutically acceptable carriers and formulas▲Mathematical formulas, chemical formulas, tables, etc.▼ compound of [In the formula, the bond between C-22 and C-23 is a single or double bond, and Y1 is hydrogen , F, CH3, CH2CH3 or X1, U is hydrogen, -OH or -O-(C2 -C4 alkyl)-OH, Z1 is F, H or X1, Qa is CF3 or CH2X1, Qb is CF3 or CH3, X1 is hydrogen, R1 selected from the group consisting of -OH and OR1 is hydrogen or 1 residue straight-chain or branched glycosidic residues containing 1-20 glycosidic units per group, or R1 is an orthoester glycoside moiety represented by the following formula: ▲Contains mathematical formulas, chemical formulas, tables, etc.▼ (In the formula, A represents glucofuranosyl or glucopyranosyl ring, R2 is hydrogen, Lower alkyl or aryl. However, aryl is phenyl or chloro , fluoro, bromo, iodo, lower C1-C4 alkyl, C1-C4 alkoxy phenyl or naphthyl substituted with R3 is hydrogen or a straight or branched chain containing 1-20 glycosidic units per residue. glycosidic residues, W is CH-CH3 or O, V is CH2 or O, However, both W and V are not O, “===” is a single bond between Qa and Qb or a hydrogen atom in Qa and Qb. )], The compound is capable of providing a vitamin D analog when the composition is administered to an individual. A composition present in an effective amount. 33. If the above compound is 1alpha,25-dihydroxylmisterol 3,1alpha, alpha,25-dihydroxyl misterol 2,1 alpha hydroxyl misterol roll 3,1 alpha hydroxyl misterol 2,24,25-di and doroki Cilmisterol 3,24,25-dihydroxylmisterol 2,1,24- Dihydroxyl misterol 3,1,24-dihydroxyl misterol 2 and and 1,24-dihydroxy-25,26-dehydrolumisterol 3. 33. The composition according to claim 32. 34. 35. The composition of claim 34, wherein the carrier is effective for topical administration. 35. 33. Further comprising one or more sunscreen agents. Composition. 36. 33. The composition of claim 32, wherein said carrier is effective for parenteral administration. 37. Claim 32, wherein said compound is present in an amount from 0.00001 to 10% by weight. Compositions as described. 38. Claim 3, wherein said compound is present in an amount of 0.0001 to 0.01% by weight. 2. Composition according to item 2. 39. Pharmaceutically acceptable carriers and formulas▲Mathematical formulas, chemical formulas, tables, etc.▼ compound of [In the formula, the bond between C-22 and C-23 is a single or double bond, and Y1 is hydrogen , F, CH3, CH2CH3 or X1, U is hydrogen, -OH or -O-(C2 -C4 alkyl)-OH, Z1 is F, H or X1, Qa is CF3 or CH2X1, Qb is CF3 or CH3, X1 is hydrogen, R1 selected from the group consisting of -OH and OR1 is hydrogen or 1 residue straight-chain or branched glycosidic residues containing 1-20 glycosidic units per group, or R1 is an orthoester glycoside moiety represented by formula (III) ▲Contains mathematical formulas, chemical formulas, tables, etc.▼ (In the formula, A represents glucofuranosyl or glucopyranosyl ring, R2 is hydrogen, Lower alkyl, aralkyl or aryl. However, aryl is phenyl or chloro, fluoro, bromo, iodo, lower C1-C4 alkyl, C1-C It is phenyl or naphthyl substituted with 4 alkoxy. R3 is hydrogen or a straight or branched chain containing 1-20 glycosidic units per residue. branched glycosidic residues, W is CH-CH3 and O, V is CH2 or O, However, both W and V are not O, “===” is a single bond between Qa and Qb Or it is a hydrogen atom in Qa and Qb. )], The compound is capable of providing a vitamin D analog when the composition is administered to an individual. A composition present in an effective amount. 40. The above compound is 1alpha,25-dihydroxytaxterol 3,1alpha alpha,25-dihydroxytaxterol 2,1 alpha-hydroxytaxisterol roll 3,1 alpha hydroxy tachysterol 2,24,25-dihydrox Sitaxerol 3,24,25-dihydroxytaxerol 2,1,24- Dihydroxytaxerol 3,1,24-dihydroxytaxerol 2 and and 1,24-dihydroxy-25,26-dehydroditaxerol 3. The composition according to claim 39. 41. 40. The composition of claim 39, wherein the carrier is effective for topical administration. 42. 42. Further comprising one or more sunscreen agents. Composition. 43. 40. The composition of claim 39, wherein said carrier is effective for parenteral administration. 44. Claim 39, wherein said compound is present in an amount from 0.00001 to 10% by weight. Compositions as described. 45. Claim 3, wherein said compound is present in an amount of 0.0001 to 0.01% by weight. 9. The composition according to 9. 46. The composition of claim 32 or 39 is administered to an individual and the individual is exposed to UV radiation. A method of supplying a vitamin D analog to an individual comprising phototransfection. 47. 47. The method of claim 46, wherein said composition is administered by topical means. 48. Claims wherein the composition further comprises one or more sunscreen agents The method according to item 47. 49. 47. The method of claim 46, wherein said composition is administered by intravenous means. 50. The UV radiation causes the conversion of brovitamin D analogues to vitamin D analogues. 47. The method of claim 46, wherein the method is provided by sunlight of insufficient intensity and wavelength to . 51. 47. The method of claim 46, wherein the UV radiation has a wavelength above 315 nm. . 52. The pharmaceutical composition of claim 32 or 39 is administered to an individual and the individual is exposed to ultraviolet rays. pressure ulcers or diabetic foot ulcers, ulcerative keratitis, psoriasis, wounds, harmful scarring, glucocorticoid-induced calcium hypoabsorption, osteoporosis, Senile calcium absorption syndrome, hypoparathyroidism, milk fever, Shichimenjima week Treatment of GG disease or bone dysgenesis due to acquired or inherited vitamin D metabolic deficiency Treatment and prevention methods for diseases. 53. 53. The method of claim 52, wherein said composition is administered by topical means. 54. Claims wherein the composition further comprises one or more sunscreen agents The method according to item 53. 55. 53. The method of claim 52, wherein said composition is administered by intravenous means. 56. From the above UV radiation corresponding brovitamin D analogs to vitamin D analogs 53. Provided by sunlight of insufficient intensity and wavelength to effect conversion. the method of. 57. 57. The method of claim 56, wherein the UV radiation has a wavelength above 315 nm. .