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53. ChemInform Abstract: A New Approach to the Stereoselective Total Synthesis of Isotopically Labeled D-ribo-Phytosphingosine

Author

Jihai Pang, William K. Wilson, Shengrong Li, and George J. Schroepfer

Subjects
Sharpless epoxidation, chemistry.chemical_compound, chemistry, Isotope dilution method, Stereochemistry, Dihydroxylation, Total synthesis, Stereoselectivity, General Medicine, Chirality (chemistry), Triethyl phosphonoacetate, Derivative (chemistry)
Abstract

We describe a novel stereoselective total synthesis of d -ribo-[1,1-2H-1,2-13C]phytosphingosine (12). Chirality at the incipient C-4 position was derived from asymmetric dihydroxylation of 1-hexadecene. The remaining chiral centers were formed by Sharpless epoxidation of an allylic alcohol, followed by benzoylcarbamate cyclization to furnish a 2-amino-1,3,4-triol derivative with the desired stereochemistry. The 2H and 13C labels were introduced by Horner–Emmons condensation of 13C-labeled triethyl phosphonoacetate, followed by reduction of the resulting carboxylic ester with AlCl3/LiAlD4. Mass spectral results indicated the suitability of 12 as an internal standard for analyses by the isotope dilution method.

Published
2010

54. Efficient preparation of steroidal 5,7-dienes of high purity

Author

William K. Wilson, Shankar Swaminathan, George J. Schroepfer, and Abdul U. Siddiqui

Subjects
Delta, chemistry.chemical_classification, Magnetic Resonance Spectroscopy, Stigmasterol, Ketone, Molecular Structure, medicine.medical_treatment, Organic Chemistry, Acetal, Stereoisomerism, Cell Biology, Nuclear magnetic resonance spectroscopy, Diosgenin, Carbon-13 NMR, Biochemistry, Steroid, Quaternary Ammonium Compounds, chemistry.chemical_compound, chemistry, Methods, medicine, Organic chemistry, Steroids, Molecular Biology
Abstract

Protected forms of dehydroepiandrosterone, delta 5 cholenic acid, (25R)-26-hydroxycholesterol and diosgenin were converted to the corresponding delta 5,7 dienes by successive treatment with 1,3-dibromo-5,5-dimethylhydantoin (dibromantin), tetrabutylammonium bromide and tetrabutylammonium fluoride. The crude products, which contained the delta 5,7 species contaminated by minor amounts of the delta 5 and delta 4,6 steroids, were purified by silica gel-AgNO3 chromatography to give the following steroids in approximately 99% purity and at least 50% yield: 3 beta-acetoxyandrosta-5,7-dien-17-one, methyl 3 beta-acetoxychola-5,7-dien-24-oate, (25R)-3 beta,26-diacetoxycholesta-5,7-diene and (25R)-3 beta-acetoxyspirosta-5,7-diene. Analogous treatment of acetate derivatives of pregnenolone and stigmasterol gave 3 beta-acetoxypregna-5,7-dien-20-one and 3 beta-acetoxystigmasta-5,7,22-triene in approximately 50% yield but of lower purity. Full 1H and 13C NMR assignments are given for seven delta 5,7 steroid acetates and the corresponding delta 5 starting materials. Coupling constants for rings A, B and C of delta 5,7 steroids are presented and stereochemical assignments have been made for the following 1H NMR signals: the C-11 protons of delta 5,7 steroids, the C-16 protons of sterols and bile acids, the C-22 and C-23 protons of bile acid esters and the C-28 protons of stigmasterol derivatives.

Published
1992

55. Inhibitors of sterol synthesis. Chemical synthesis and spectral properties of 3 beta-hydroxy-5 alpha-cholesta-8(14),24-dien-15-one, 3 beta,25-dihydroxy-5 alpha-cholest-8(14)-en-15-one, and 3 beta,24-dihydroxy-5 alpha-cholest-8(14)-en-15-one and their effects on 3-hydroxy-3-methylglutaryl coenzyme A reductase activity in CHO-K1 cells

Author

William K. Wilson, Shankar Swaminathan, George J. Schroepfer, Satoshi Numazawa, and Frederick D. Pinkerton

Subjects
chemistry.chemical_classification, Trimethylsilyl, Stereochemistry, medicine.medical_treatment, Coenzyme A, QD415-436, Cell Biology, Biochemistry, Chemical synthesis, Sterol, Steroid, chemistry.chemical_compound, Endocrinology, Enzyme, chemistry, Wittig reaction, medicine, Epimer
Abstract

Side-chain functionalized delta 8(14)-15-ketosterols have been synthesized from 3 beta-acetoxy-24-hydroxy-5 alpha-chol-8(14)-en-15-one (VI) as part of a program to prepare potential metabolites and analogs of 3 beta-hydroxy-5 alpha-cholest-8(14)-en-15-one (I), a potent regulator of cholesterol metabolism. Oxidation of VI to the 24-aldehyde VII, followed by Wittig olefination with isopropyltriphenylphosphonium iodide gave 3 beta-acetoxy-5 alpha-cholesta-8(14),24-dien-15-one (VIII), which was hydrolyzed to the free sterol IX. Oxymercuration of VIII followed by hydrolysis of the 3 beta-acetate gave 3 beta,25-dihydroxy-5 alpha-cholest-8(14)-en-15-one (IV). Hydroboration-oxidation of VIII followed by hydrolysis of the 3 beta-acetate gave 3 beta,24-dihydroxy-5 alpha-cholest-8(14)-en-15-one (V) as a 5:4 mixture of the 24R and 24S epimers. 1H and 13C nuclear magnetic resonance (NMR) assignments and mass spectral fragmentation patterns, supported by high-resolution measurements, are presented for IV and its 3 beta-acetate, V, VII, VIII, and IX. Characterization of IV by NMR and of trimethylsilyl ethers of IV and V by gas chromatography-mass spectrometry was compatible with spectral data for samples of IV and V isolated previously after incubation of I with rat liver mitochondria in the presence of NADPH. Sterols IV, V, and IX were very potent in lowering of the level of 3-hydroxy-3-methylglutaryl coenzyme A reductase activity in Chinese hamster ovary cells; their potency was comparable to that of I.

Published
1992

56. Inhibitors of sterol synthesis. Chemical synthesis of 7α-ethyl and 16α-ethyl derivatives of Δ8(14)-15-oxygenated sterols and their effects on 3-hydroxy-3-methylglutaryl coenzyme A reductase in CHO-K1 cells

Author

Nanda Duhe Kirkpatrick, Mark D. Hylarides, William K. Wilson, George J. Schroepfer, Hong-Seok Kim, Shankar Swaminathan, and Frederick D. Pinkerton

Subjects
Alkylation, Stereochemistry, Butanols, Coenzyme A, Ether, CHO Cells, Lithium, Biochemistry, Chemical synthesis, chemistry.chemical_compound, Cricetinae, Animals, Molecular Biology, Cholestenones, Tetrahydrofuran, Propylamines, Anticholesteremic Agents, Methanol, Organic Chemistry, Ethyl iodide, Cell Biology, Nuclear magnetic resonance spectroscopy, Lithium diisopropylamide, Oxygen, Sterols, chemistry, Potassium, Hydroxymethylglutaryl CoA Reductases, Epimer
Abstract

The enolate of 3 beta-hydroxy-5 alpha-cholest-8(14)-en-15-one (II), formed upon treatment of II with potassium tert-butoxide in tert-butanol, was alkylated with ethyl iodide. In addition to the major products, 3 beta-hydroxy-14 alpha-ethyl-5 alpha-cholest-7-en-15-one and its 3 beta-ethyl ether, small amounts of 3 beta-hydroxy-7 alpha-ethyl-5 alpha-cholest-8(14)-en-15-one (V), 3 beta-hydroxy-16 alpha-ethyl-5 alpha-cholest-8(14)-en-15-one (VI) and the 3 beta-ethyl ether of VI were isolated. When the enolate of II was formed by treatment with lithium diisopropylamide in tetrahydrofuran, the same alkylation furnished VI as the major product. Reduction of VI with lithium aluminum hydride gave 16 alpha-ethyl-5 alpha-cholest-8(14)-ene-3 beta, 15 alpha-diol (IX) and its 15 beta epimer X, which were separated by column chromatography. Full 1H and 13C nuclear magnetic resonance (NMR) assignments, augmented by nuclear Overhauser effect difference spectra for VI, established the stereochemistry of these diols at C-15 and C-16. The NMR results indicate that the 16 alpha-ethyl group affects the side-chain conformation. The effects of II, V, VI, IX and X on the levels of 3-hydroxy-3-methylglutaryl coenzyme A (HMG-CoA) reductase activity were studied in CHO-K1 cells. With the exception of IX, each of the compounds reduced the levels of HMG-CoA reductase activity. The order of potency with respect to suppression of the elevated levels of HMG-CoA reductase activity induced by transfer of the cells to lipid-deficient medium, was II greater than V greater than VI greater than X.

Published
1992

57. Inhibitors of sterol synthesis. Chemical synthesis and spectral properties of (25R)-5α-cholest-8(14)-ene-3β,15β,26-triol, a potential metabolite of 3β-hydroxy-5α-cholest-8(14)-en-15-one and its effects on 3-hydroxy-3-methylglutaryl-coenzyme A reductase in CHO-K1 cells

Author

George J. Schroepfer, Shankar Swaminathan, Frederick D. Pinkerton, and William K. Wilson

Subjects
Chemistry, Stereochemistry, Metabolite, Coenzyme A, Chinese hamster ovary cell, Organic Chemistry, Cell Biology, Carbon-13 NMR, Lithium aluminium hydride, Biochemistry, Chemical synthesis, chemistry.chemical_compound, Triol, Molecular Biology, Ene reaction
Abstract

(25 R )-5α-Cholest-8(14)-ene-3β,15β,26-triol ( III ) was prepared by reduction of (25R)-3β,26-diacetoxy-5α-cholest-8(14)-en-15-one with sodium borohydride followed by treatment of the crude product with lithium aluminium hydride. The trihydroxysterol III , a potential metabolite of 3β-hydroxy-5α-cholest-8(14)-en-15-one, was characterized by the results of mass spectral studies and by nuclear magnetic resonance (NMR) spectroscopy. Full 1 H and 13 C NMR assignments for III and 5α-cholest-8(14)-ene-3β,15β-diol are given and used to establish the structure of III . The triol was found to be very potent in lowering the levels of 3-hydroxy-3-methylglutaryl coenzyme A reductase activity in Chinese hamster ovary cells.

Published
1992

58. Inhibitors of sterol synthesis. A highly efficient and specific side-chain oxidation of 3 beta-acetoxy-5 alpha-cholest-8(14)-en-15-one for construction of metabolites and analogs of the 15-ketosterol

Author

William K. Wilson, Josef E. Herz, George J. Schroepfer, Frederick D. Pinkerton, and Shankar Swaminathan

Subjects
Magnetic Resonance Spectroscopy, Stereochemistry, Fluoroacetates, Acetic Anhydrides, QD415-436, CHO Cells, Alkaline hydrolysis (body disposal), Biochemistry, Medicinal chemistry, Chemical synthesis, Hydrolysis, chemistry.chemical_compound, Endocrinology, Cricetinae, Animals, Trifluoroacetic Acid, Triethylamine, Cholestenones, Chromatography, High Pressure Liquid, Molecular Structure, Chemistry, Diazomethane, Hydrogen Peroxide, Cell Biology, Sulfuric Acids, Cholenes, Cholesterol, Reagent, Hydroxymethylglutaryl CoA Reductases, Methanol, Trifluoroacetic anhydride, Oxidation-Reduction
Abstract

As part of a program directed towards the chemical syntheses of potential metabolites and analogs of 3 beta-hydroxy-5 alpha-cholest-8(14)-en-15-one (I), a potent regulator of cholesterol metabolism, several routes have been explored for the preparation of 3 beta-hydroxy-15-keto-5 alpha-chol-8(14)-en-24-oic acid (IV). These investigations led to a remarkably specific and efficient side-chain oxidation of I. For example, treatment of the acetate of I with a mixture of trifluoroacetic anhydride, hydrogen peroxide, and sulfuric acid for 3.5 h at -2 degrees C gave a crude product consisting of 3 beta-acetoxy-24-trifluoroacetoxy-5 alpha-chol-8(14)-en-15-one (XI), 3 beta-acetoxy-24-hydroxy-5 alpha-chol-8(14)-en-15-one (XII), and 3 beta, 24-diacetoxy-5 alpha-chol-8(14)-en-15-one (XIII) in yields of 58%, 8%, and 3%, respectively, by HPLC analysis. XI was readily hydrolyzed to XII upon treatment with triethylamine in methanol at room temperature. Oxidation of XII with Jones reagent gave 3 beta-acetoxy-15-keto-5 alpha-chol-8(14)-en-24-oic acid (XVIII) from which its methyl ester (IX) was prepared by treatment with diazomethane. Mild alkaline hydrolysis of XVIII gave the 3 beta-hydroxy-delta 8(14)-15-keto C24 acid (IV). Hydrolysis of the crude product of the side-chain oxidation with K2CO3 in methanol gave 3 beta,24-dihydroxy-5 alpha-chol-8(14)-en-15-one (XIV) which was oxidized with Jones reagent to yield 3,15-diketo-5 alpha-chol-8(14)-en-24-oic acid (XV). Treatment of XV with diazomethane gave its methyl ester (XVI) which, upon controlled reduction with NaBH4, yielded methyl 3 beta-hydroxy-15-keto-5 alpha-chol-8(14)-en-24-oate (XVII). Compound IX was also prepared by an independent route. Full 1H and 13C NMR assignments are presented for 12 new compounds. IV caused a approximately 56% reduction of the level of 3-hydroxy-3-methylglutaryl coenzyme A reductase activity in CHO-K1 cells at a concentration of 2.5 microM. In contrast, the corresponding 3,15-diketo acid XV had no detectable effect on reductase activity under the same conditions.

Published
1992

60. Protostadienol biosynthesis and metabolism in the pathogenic fungus Aspergillus fumigatus

Author

William K. Wilson, Gregory S. May, Quanbo Xiong, McKenzie L. Smith, Seiichi P. T. Matsuda, Silvia Lodeiro, and Yulia Ivanova

Subjects
biology, Molecular Structure, medicine.drug_class, Chemistry, Aspergillus fumigatus, Organic Chemistry, Antibiotics, Stereoisomerism, Metabolism, Pathogenic fungus, biology.organism_classification, Biochemistry, Triterpenes, Anti-Bacterial Agents, chemistry.chemical_compound, Biosynthesis, medicine, Physical and Theoretical Chemistry, Helvolic acid, skin and connective tissue diseases, Fusidic Acid, Intramolecular Transferases
Abstract

Details of the fungal biosynthetic pathway to helvolic acid and other fusidane antibiotics remain obscure. During product characterization of oxidosqualene cyclases in Aspergillus fumigatus, we found the long-sought cyclase that makes (17Z)-protosta-17(20),24-dien-3beta-ol, the precursor of helvolic acid. We then identified a gene cluster encoding the pathway to helvolic acid, which is controlled by a transcription regulator (LaeA) associated with fungal virulence. Evidence regarding the evolutionary origin and taxonomic distribution of fusidane biosynthesis is also presented.

Published
2009

61. Inhibitors of sterol synthesis. An efficient and specific side chain oxidation of 3β-hydroxy-5α-cholest-8(14)-en-15-one. Facile access to its metabolites and analogs

Author

Shankar Swaminathan, William K. Wilson, George J. Schroepfer, and Josef E. Herz

Subjects
chemistry.chemical_compound, Hydrolysis, Chemistry, Organic Chemistry, Drug Discovery, Organic chemistry, Side chain oxidation, Sulfuric acid, Cholesterol metabolism, Hydrogen peroxide, Biochemistry, Sterol synthesis, Reaction product
Abstract

Treatment of the acetate of 3β-hydroxy-5α-cholest-8(14)-en-15-one ( 1 ), a potent regulator of cholesterol metabolism, with a mixture of trifluoroacetic anthydride, hydrogen peroxide, and sulfuric acid at ∼−2°C for 3.5 h gave remarkably high yields (∼64%) of a mixture of C 24 oxygenated products: 3β-acetoxy-24-trifluoroacetoxy-5α-chol-8(14)-en-15-one ( 6 ), 3β-acetoxy-24-hydroxy-5α-chol-8(14)-en-15-one ( 7 ), and 3β,24-diacetoxy-5α-chol-8(14)-en-15-one ( 8 ). Selective hydrolysis of the trifluoroacetoxy function of 6 in the crude reaction product gave isolated yields of 7 and 8 of 61% and 3%, respectively. The availability of 7 , selectively protected at C-3, provides a key intermediate for the synthesis of potential metabolites and analogs of 1 . Thus, 7 was readily converted to 3β-hydroxy-15-keto-5α-chol-8(14)-en-24-oic acid ( 4 ) and the 25-aza analog of 1 , 3β-hydroxy-24-dimethylamino-5α-chol-8(14)-en-15-one ( 10 ).

Published
1991

62. Inhibitors of sterol synthesis. Characterization of trimethylsilyl dienol ethers of 3 beta-hydroxy-5 alpha-cholest-8(14)-en-15-one. Applications in the analysis of mitochondrial metabolites of the 15-ketosterol by gas chromatography-mass spectrometry

Author

William K. Wilson, S. Numazawa, G. J. Schoepfer, and J. Saint Pyrek

Subjects
Chromatography, Trimethylsilyl, Chemistry, Ether, QD415-436, Cell Biology, Nuclear magnetic resonance spectroscopy, BSTFA, Mass spectrometry, Biochemistry, Medicinal chemistry, chemistry.chemical_compound, Endocrinology, Gas chromatography, Gas chromatography–mass spectrometry, Derivatization
Abstract

Derivatization of delta 8(14)-15-ketosterols as bis-TMS dienol ethers facilitates their analysis by gas chromatography-mass spectrometry (GC-MS). Conditions are presented for the preparation of each of the three possible bis-TMS dienol ethers of 3 beta-hydroxy-5 alpha-cholest-8(14)-en-15-one (1), a potent regulator of cholesterol metabolism. Treatment of 1 with N,O-bis(tri-methylsilyl)-trifluoroacetamide (BSTFA) and pyridine for 20 h at 100 degrees C produced primarily 3 beta,15-bis(trimethylsilyloxy)-5 alpha-cholesta-7,14-diene. Treatment of 1 with BSTFA-pyridine in the presence of 0.1% perchloric acid for 20 h at 22 degrees C gave mainly the delta 8(14)15, dienol ether. Heating this reaction mixture at 100 degrees C for 4 days gave mainly the delta 8,14 ether. The structures of the three dienol ethers were established by GC-MS and 1H and 13C nuclear magnetic resonance spectroscopy. The three TMS dienol ethers of 1 were resolved by capillary GC and gave very simple mass spectra upon electron impact with fragmentation limited almost exclusively to the elimination of trimethylsilanol, methyl, and the side chain. The TMS dienol ethers showed reduced artefact formation, improved chromatographic resolution, and increased sensitivity relative to the delta 8(14)-15-ketosterols, properties that improve the detection and identification of minor components in analyses of complex biological mixtures. The utility of this derivatization is illustrated for the delta 7,14 TMS dienol ethers of the 3-deoxy, 3-keto, 3 alpha-hydroxy, and 3 beta-methoxy analogs of 1 and for delta 8(14)-15-ketosterols in mixtures obtained from incubations of 1 with rat liver mitochondria in the presence of NADPH.

Published
1991

63. Inhibitors of sterol synthesis. Characterization of beta,gamma-unsaturated analogs of 3 beta-hydroxy-5 alpha-cholest-8(14)-en-15-one and their effects on 3-hydroxy-3-methylglutaryl coenzyme A reductase activity in CHO-K1 cells

Author

William K. Wilson, George J. Schroepfer, M E Wheeler, Frederick D. Pinkerton, and J St Pyrek

Subjects
Magnetic Resonance Spectroscopy, Stereochemistry, Coenzyme A, Alpha (ethology), Ether, QD415-436, Biochemistry, Cell Line, chemistry.chemical_compound, Cricetulus, Endocrinology, Isomerism, Cricetinae, Animals, Cholestenones, chemistry.chemical_classification, biology, Ovary, Cell Biology, Metabolism, Hydroxymethylglutaryl-CoA reductase, Sterol, Enzyme, chemistry, Enzyme inhibitor, biology.protein, Female, Hydroxymethylglutaryl CoA Reductases, Hydroxymethylglutaryl-CoA Reductase Inhibitors
Abstract

Treatment of 3 beta-hydroxy-5 alpha-cholest-8(14)-en-15-one (1), a potent regulator of cholesterol metabolism, with perchloric acid in methanol resulted in its partial isomerization to the beta,gamma-unsaturated 15-ketosterols, 3 beta-hydroxy-5 alpha,14 beta-cholest-8-en-15-one (2) and 3 beta-hydroxy-5 alpha,14 beta-cholest-7-en-15-one (3), which were easily separated from 1 by chromatography. Isomers 1, 2, and 3 could be distinguished by their chromatographic retention times as well as by their physical and spectral properties. Reduction of 2 with sodium borohydride gave 5 alpha,14 beta-cholest-8-ene-3 beta,15 beta-diol (4), for which the C-15 configuration was established from the lanthanide-induced shifts of its 3 beta-tert-butyldimethylsilyl ether. 1H and 13C NMR chemical shift differences between 2, 3, and 4 indicated the involvement of variable populations of conformers that differ in the flexible C-D ring system and in the side chain. Compounds 2, 3, and 4 lowered the levels of 3-hydroxy-3-methylglutaryl coenzyme A reductase activity in CHO-K1 cells.

Published
1991

64. ChemInform Abstract: Trinorlupeol: A Major Nonsterol Triterpenoid in Arabidopsis

Author

Dereth R. Phillips, Seiichi P. T. Matsuda, William K. Wilson, Hui Shan, and Bonnie Bartel

Subjects
biology, Stereochemistry, Metabolite, fungi, food and beverages, General Medicine, biology.organism_classification, Cyclase, Terpene, chemistry.chemical_compound, Triterpenoid, chemistry, Biochemistry, Biosynthesis, Arabidopsis, Arabidopsis thaliana, Trinorlupeol
Abstract

We report the structure determination of 20,29,30-trinorlup-18-en-3beta-ol (trinorlupeol) and establish this novel C 27 metabolite as a major nonsterol triterpenoid in Arabidopsis thaliana. Trinorlupeol was concentrated in cuticular waxes, notably in the plant stem, floral buds, and seedpods, but not in leaves. Based on expression data and functional characterization of A. thaliana oxidosqualene cyclases, we propose that LUP1 is the cyclase responsible for trinorlupeol biosynthesis. Also described are two oxidized trinorlupeols and additional biosynthetic insights.

Published
2008

65. The Liebermann-Burchard reaction: sulfonation, desaturation, and rearrangment of cholesterol in acid

Author

William K. Wilson, Quanbo Xiong, and Jihai Pang

Subjects
chemistry.chemical_classification, Magnetic Resonance Spectroscopy, Double bond, Organic Chemistry, Sulfuric acid, Cell Biology, Nuclear magnetic resonance spectroscopy, Polyene, Biochemistry, Sterol, Mass Spectrometry, Acetic acid, chemistry.chemical_compound, Acetic anhydride, Cholesterol, chemistry, Organic chemistry, Reactivity (chemistry), Sulfonic Acids
Abstract

In the Liebermann-Burchard (LB) colorimetric assay, treatment of cholesterol with sulfuric acid, acetic anhydride, and acetic acid elicits a blue color. We studied the reactivity of cholesterol under LB conditions and provide definitive NMR characterization for approximately 20 products, whose structure and distribution suggest the following mechanistic picture. The major reaction pathways do not involve cholestadienes, i-steroids, or cholesterol dimers, as proposed previously. Instead, cholesterol and its acetate and sulfate derivatives undergo sulfonation at a variety of positions, often with skeletal rearrangements. Elimination of an SO(3)H group as H(2)SO(3) generates a new double bond. Repetition of this desaturation process leads to polyenes and ultimately to aromatic steroids. Linearly conjugated polyene cations can appear blue but form too slowly to account for the LB color response, whose chemical origin remains unidentified. Nevertheless, the classical polyene cation model is not excluded for Salkowski conditions (sulfuric acid), which immediately generate considerable amounts of cholesta-3,5-diene. Some rearrangements of cholesterol in H(2)SO(4) resemble the diagenesis pathways of sterols and may furnish useful lipid biomarkers for characterizing geological systems.

Published
2006

66. An Arabidopsis oxidosqualene cyclase catalyzes iridal skeleton formation by Grob fragmentation

Author

Quanbo Xiong, William K. Wilson, and Seiichi P. T. Matsuda

Subjects
Grob fragmentation, biology, Molecular Structure, Chemistry, Stereochemistry, Arabidopsis Proteins, Arabidopsis, General Chemistry, General Medicine, biology.organism_classification, Skeleton (computer programming), Catalysis, Triterpenes, Oxidosqualene cyclase, Amino Acid Sequence, Fragmentation (cell biology), Intramolecular Transferases, Sequence Alignment
Published
2006

67. Enzymatic cyclization of dioxidosqualene to heterocyclic triterpenes

Author

Michael J. R. Segura, Hui Shan, Seiichi P. T. Matsuda, William K. Wilson, and Silvia Lodeiro

Subjects
chemistry.chemical_classification, Squalene, biology, Stereochemistry, Saponin, General Chemistry, Isomerase, Biochemistry, Catalysis, Yeast, Triterpenes, Terpene, Colloid and Surface Chemistry, Triterpene, chemistry, Cyclization, biology.protein, Organic chemistry, Oxonium ion, Lupeol synthase, Intramolecular Transferases, Lanosterol synthase, Plant Proteins
Abstract

Oxidosqualene cyclases normally produce triterpenes from 2,3-(S)-oxidosqualene (OS) but also can cyclize its minor companion (3S,22S)-2,3:22,23-dioxidosqualene (DOS). We explored DOS cyclization in plant triterpene synthesis using a recombinant lupeol synthase (LUP1) heterologously expressed in yeast. Incubation of LUP1 with 3S,22S-DOS gave epoxydammaranes epimeric at C20 and a 17,24-epoxybaccharane in a 4:2:3 ratio. The products reflected a new mechanistic paradigm for DOS cyclization. The structures were determined by NMR and GC-MS, and recent errors in the epoxydammarane literature were rectified. Some DOS metabolites are likely candidates for regulating triterpenoid biosynthesis, while others may be precursors of saponin aglycones. Our in vivo experiments in yeast generated substantial amounts of DOS metabolites in a single enzymatic step, suggesting a seminal role for the DOS shunt pathway in the evolution of saponin synthesis. Quantum mechanical calculations revealed oxonium ion intermediates, whose reactivity altered the usual mechanistic patterns of triterpene synthesis. Further analysis indicated that the side chain of the epoxydammarenyl cation intermediate is in an extended conformation. The overall results establish new roles for DOS in triterpene synthesis and exemplify how organisms can increase the diversity of secondary metabolites without constructing new enzymes.

Published
2005

68. Alternative pathways of sterol synthesis in yeast. Use of C(27) sterol tracers to study aberrant double-bond migrations and evaluate their relative importance

Author

Benfang, Ruan, Peggy S, Lai, Christine W, Yeh, William K, Wilson, Jihai, Pang, Ran, Xu, Seiichi P T, Matsuda, and George J, Schroepfer

Subjects
Sterols, Magnetic Resonance Spectroscopy, Molecular Structure, Cholestadienols, Saccharomyces cerevisiae
Abstract

Yeast produce traces of aberrant sterols by minor alternative pathways, which can become significant when normal metabolism is blocked by inhibitors or mutations. We studied sterols generated in the absence of the delta(8)-delta(7) isomerase (Erg2p) or delta(5) desaturase (Erg3p) by incubating three mutant strains of Saccharomyces cerevisiae with 5 alpha-cholest-8-en-3beta-ol, 8-dehydrocholesterol (delta(5,8) sterol), or isodehydrocholesterol (delta(6,8) sterol), together with the corresponding 3 alpha-3H isotopomer. Nine different incubations gave altogether 16 sterol metabolites, including seven delta(22E) sterols formed by action of the yeast C-22 desaturase (Erg5p). These products were separated by silver-ion high performance liquid chromatography (Ag(+)-HPLC) and identified by gas chromatography-mass spectrometry, nuclear magnetic resonance spectroscopy, and radio-Ag(+)-HPLC. When delta(8)-delta(7) isomerization was blocked, exogenous delta(8) sterol underwent desaturation to delta(5,8), delta(6,8), and delta(8,14) sterols. Formation of delta(5,8) sterol was strongly favored over delta(6,8) sterol, but both pathways are essentially dormant under normal conditions of sterol synthesis. The delta(5,8) sterol was metabolically almost inert except for delta(22) desaturation, whereas the delta(6,8) sterol was readily converted to delta(5,7), delta(5,7,9(11)), and delta(7,9(11)) sterols. The combined results indicate aberrant metabolic pathways similar to those in mammalian systems. However, delta(5,7) sterol undergoes only slight isomerization or desaturation in yeast, an observation that accounts for the lower levels of delta(5,8) and delta(5,7,9(11)) sterols in wild-type yeast compared to Smith-Lemli-Opitz individuals.

Published
2002

69. Thermal rearrangements of spiro[2.4]hepta-1,4,6-trienes

Author

William K. Wilson, Vladislav A. Litosh, Lawrence B. Alemany, Rajesh K. Saini, W. E. Billups, and Kenneth B. Wiberg

Subjects
Crystallography, chemistry.chemical_compound, Cyclobutanes, Bicyclic molecule, Chemistry, Ab initio quantum chemistry methods, Stereochemistry, Organic Chemistry, Thermal decomposition, Reaction intermediate, Sigmatropic reaction, Two-dimensional nuclear magnetic resonance spectroscopy, Cyclobutane
Abstract

Thermolysis of spiro[2.4]hepta-1,4,6-triene (1a) at 50 degrees C yielded bicyclo[3.2.0]hepta-1,3,6-triene (5), which dimerized in two different fashions to form cyclobutanes. The 1,2-dimethyl and 1-propyl derivatives of 1a also rearranged at 50 degrees C, but at a faster rate, each yielding a pair of cyclobutane dimers. The structures of these symmetrical dimers were investigated by 1D and 2D NMR and NOE difference spectroscopy. Ab initio calculations indicated that the two strained olefins 1a and 5 had comparable energies about 50 kcal/mol lower than norborna-1(7),2,5-triene, which was thus excluded as a reaction intermediate.

Published
2002

70. A colorimetric assay for 7-dehydrocholesterol with potential application to screening for Smith-Lemli-Opitz syndrome

Author

George J. Schroepfer, Frank G. Whitby, Thomas L. Belanger, Richard I. Kelley, Richard P. Tuohy, Benfang Ruan, Quanbo Xiong, and William K. Wilson

Subjects
congenital, hereditary, and neonatal diseases and abnormalities, Biochemistry, NMR - Nuclear magnetic resonance, Sensitivity and Specificity, Absorbance, 7-Dehydrocholesterol, chemistry.chemical_compound, Dehydrocholesterols, medicine, Humans, Molecular Biology, Nuclear Magnetic Resonance, Biomolecular, Chromatography, Organic Chemistry, nutritional and metabolic diseases, Diagnostic test, Reproducibility of Results, Cell Biology, medicine.disease, Smith-Lemli-Opitz Syndrome, Hypocholesterolemia, Kinetics, chemistry, Smith–Lemli–Opitz syndrome, Case-Control Studies, Pink color, Colorimetry, Indicators and Reagents
Abstract

Smith–Lemli–Opitz syndrome (SLOS; MIM 270400) is a genetic disorder characterized by hypocholesterolemia and elevated 7-dehydrocholesterol (7DHC) levels resulting from mutations affecting 7-dehydrocholesterol reductase. We describe a colorimetric assay for 7DHC with potential application to large-scale screening for SLOS. Reaction of 7DHC and its esters with the Liebermann–Burchard reagent resulted in a brief initial absorbance at 510 nm (pink color) followed by an absorbance at 620 nm (blue color) after 2 min, while cholesterol samples were essentially colorless. The assay could identify typical SLOS blood samples by their pink color and increased absorbance at 620 nm after 2 min. Colorimetric identification of mild SLOS cases requires monitoring of the transient absorbance at 510 nm, which must be detected immediately after rapid, consistent mixing of the reagents. The need for special mixing devices and rigorous validation precludes sporadic use of the assay for diagnosing suspected SLOS cases. We also studied the stability of 7DHC in dried SLOS blood spots on Guthrie cards, which are widely used for archiving neonatal blood. Decomposition of 7DHC was effectively retarded by storage at low temperature and by precoating of the cards with antioxidants. The combined results provide a foundation for development of a simple, automated test for SLOS screening.

Published
2002

71. Synthesis of ring B unsaturated estriols. Confirming the structure of a diagnostic analyte for Smith-Lemli-Opitz syndrome

Author

William K. Wilson, Li-Wei Guo, and Cedric H. L. Shackleton

Subjects
Analyte, Lability, Chemistry, Stereochemistry, Estriol, Organic Chemistry, Ring (chemistry), medicine.disease, Biochemistry, Gas Chromatography-Mass Spectrometry, Smith-Lemli-Opitz Syndrome, Equilin, Smith–Lemli–Opitz syndrome, medicine, Indicators and Reagents, Spectrophotometry, Ultraviolet, Physical and Theoretical Chemistry, Estrogen replacement therapy, Biomarkers, medicine.drug
Abstract

[structure: see text] Brief partial syntheses are described for ring B unsaturated estriols, which are candidate metabolites diagnostic for Smith-Lemli-Opitz syndrome prenatally. These steroids are also likely metabolites of the Premarin preparation used in estrogen replacement therapy. Equilin (8) was converted in three steps to 7-dehydroestriol, which was isomerized to 8-dehydroestriol. The simplicity of the transformations belies the lability of these previously inaccessible metabolites and their synthetic precursors.

Published
2001

72. Progestins block cholesterol synthesis to produce meiosis-activating sterols

Author

B. Lindenthal, T.A. Aldaghlas, Joanne K. Kelleher, A. L. Holleran, William K. Wilson, George J. Schroepfer, and Benfang Ruan

Subjects
musculoskeletal diseases, Male, Miconazole, Cell, Lathosterol, Biochemistry, chemistry.chemical_compound, Desmosterol, Testis, Genetics, medicine, Hydroxyprogesterones, Tumor Cells, Cultured, Animals, Humans, Molecular Biology, Cholesterol, Spectrum Analysis, fungi, Body Weight, Cholestadienols, Estrogen Antagonists, Mifepristone, Sterol, In vitro, Rats, Meiosis, Sterols, Tamoxifen, medicine.anatomical_structure, chemistry, Pregnenolone, lipids (amino acids, peptides, and proteins), Progestins, hormones, hormone substitutes, and hormone antagonists, Biotechnology, medicine.drug
Abstract

The resumption of meiosis is regulated by meiosis-preventing and meiosis-activating substances in testes and ovaries. Certain C29 precursors of cholesterol are present at elevated levels in gonadal tissue, but the mechanism by which these meiosis-activating sterols (MAS) accumulate has remained an unresolved question. Here we report that progestins alter cholesterol synthesis in HepG2 cells and rat testes to increase levels of major MAS (FF-MAS and T-MAS). These C29 sterols accumulated as a result of inhibition of Delta24-reduction and 4alpha-demethylation. Progesterone, pregnenolone, and 17alpha-OH-pregnenolone were potent inhibitors of Delta24-reduction in an in vitro cell assay and led to the accumulation of desmosterol, a Delta5,24 sterol precursor of cholesterol. A markedly different effect was observed for 17alpha-OH-progesterone, which caused the accumulation of sterols associated with inhibition of 4alpha-demethylation. The flux of 13C-acetate into lathosterol and cholesterol was decreased by progestins as measured by isotopomer spectral analysis, whereas newly synthesized MAS accumulated. The combined evidence that MAS concentrations can be regulated by physiological levels of progestins and their specific combination provides a plausible explanation for the elevated concentration of MAS in gonads and suggests a new role for progestins in fertility.

Published
2001

73. Cloning and characterization of the Dictyostelium discoideum cycloartenol synthase cDNA

Author

Eugenio L. de Hostos, Kimberly A. Foster, William K. Wilson, Michelle M. Meyer, Seiichi P. T. Matsuda, Wei Gu, Martha A. Lovato, and Sharotka M. Godzina

Subjects
DNA, Complementary, Saccharomyces cerevisiae, Molecular Sequence Data, Sequence alignment, Biology, Biochemistry, Dictyostelium discoideum, Substrate Specificity, chemistry.chemical_compound, Complementary DNA, Animals, Humans, Dictyostelium, Amino Acid Sequence, Cloning, Molecular, Peptide sequence, Intramolecular Transferases, Mammals, Sequence Homology, Amino Acid, Lanosterol, fungi, Organic Chemistry, Cell Biology, Plants, biology.organism_classification, Recombinant Proteins, chemistry, Cycloartenol synthase, Cycloartenol, biology.protein, Sequence Alignment
Abstract

Cycloartenol synthase converts oxidosqualene to cycloartenol, the first carbocyclic intermediate en route to sterols in plants and many protists. Presented here is the first cycloartenol synthase gene identified from a protist, the cellular slime mold Dictyostelium discoideum. The cDNA encodes an 81-kDa predicted protein 50–52% identical to known higher plant cycloartenol synthases and 40–49% identical to known lanosterol synthases from fungi and mammals. The encoded protein expressed in transgenic Saccharomyces cerevisiae converted synthetic oxidosqualene to cycloartenol in vitro. This product was characterized by 1H and 13C nuclear magnetic resonance and gas chromatography-mass spectrometry. The predicted protein sequence diverges sufficiently from the known cycloartenol synthase sequences to dramatically reduce the number of residues that are candidates for the catalytic difference between cycloartenol and lanosterol formation.

Published
2000

74. Sterol synthesis. Synthesis of 3 beta-hydroxy-25,26,26,26,27,27,27-heptafluorocholest-5-en-7-one and its effects on HMG-CoA reductase activity in Chinese hamster ovary cells, on ACAT activity in rat jejunal microsomes, and serum cholesterol levels in rats

Author

Nicolas Gerst, George J. Schroepfer, Xiangdong Su, Frederick D. Pinkerton, Jeffery N Carroll, and William K. Wilson

Subjects
Male, medicine.medical_specialty, Magnetic Resonance Spectroscopy, Oxysterol, Coenzyme A, CHO Cells, Biochemistry, Rats, Sprague-Dawley, chemistry.chemical_compound, Cricetulus, In vivo, Internal medicine, Cricetinae, Microsomes, medicine, Animals, Enzyme Inhibitors, Molecular Biology, IC50, Molecular Structure, Chinese hamster ovary cell, Anticholesteremic Agents, Organic Chemistry, Cell Biology, Metabolism, Feeding Behavior, Organ Size, Rats, Endocrinology, Cholesterol, Jejunum, chemistry, Acyltransferase, Microsome, Hydroxymethylglutaryl CoA Reductases, Sterol O-Acyltransferase
Abstract

3 beta-Hydroxycholest-5-en-7-one (I; 7-ketocholesterol) is an oxysterol of continuing interest in biology and medicine. In the present study, we have prepared a side-chain fluorinated analog, 3 beta-hydroxy-25,26,26,26,27,27,27-heptafluorocholest-5-en-7-one (VI), with the anticipation that the F7 substitution would block major metabolism of the 7-ketosterol, and thereby enhance its potential in vivo effects on serum cholesterol levels and other parameters. Chromium trioxide/dimethyl pyrazole oxidation of the acetate derivative of the previously described 25,26,26,26,27,27,27-heptafluorocholest-5-en-3 beta-ol (Swaminathan et al., 1993. J. Lipid Res. 34, 1805-1823) followed by mild alkaline hydrolysis gave VI. The effects of VI on 3-hydroxy-3-methylglutaryl coenzyme A (HMG-CoA) reductase activity in Chinese hamster ovary (CHO-K1) cells, on acyl coenzyme A-cholesterol acyltransferase (ACAT) activity in rat jejunal microsomes, and on serum cholesterol levels and other parameters in male Sprague-Dawley rats were determined and compared with those obtained with I and with another alpha, beta-unsaturated ketosterol, i.e. 3 beta-hydroxy-5 alpha-cholest-8(14)-en-15-one (II). I and VI showed essentially the same potency, considerably less than that of II, in lowering the levels of HMG-CoA reductase activity in CHO-K1 cells. Whereas addition of II to rat jejunal microsomes inhibited ACAT activity (IC50 approximately 3 microM), I and VI had no effect under the conditions studied (from 1 to 16 microM). Dietary administration of I, at levels of 0.1 and 0.15%, had no effect on food consumption, gain in body weight, or serum cholesterol levels. At 0.2%, I caused a modest decrease in body weight gain and a slight decrease in serum cholesterol levels (relative to ad libitum but not pair-fed control animals). The F7-7-ketosterol VI, at 0.26% in diet (the molar equivalent of 0.2% I), had no effect on food consumption, body weight, or serum cholesterol levels. Administration of I (0.1, 0.15 or 0.2% in diet) caused increases in the weight of small intestine. In contrast, no effect of VI (0.26% in diet) on small intestinal weight was observed.

Published
1998

75. Inhibitors of sterol synthesis. Synthesis and spectral properties of 3 beta-hydroxy-25,26,26,26,27,27,27-heptafluoro-5 alpha-cholestan-15-one

Author

George J. Schroepfer, Shankar Swaminathan, William K. Wilson, Xiangdong Su, and Abdul U. Siddiqui

Subjects
chemistry.chemical_classification, Magnetic Resonance Spectroscopy, Molecular Structure, Anticholesteremic Agents, Organic Chemistry, Iodide, Triethylborane, Side reaction, Tributyltin hydride, Cell Biology, Biochemistry, Mass Spectrometry, chemistry.chemical_compound, Sterols, Cholesterol, chemistry, Bromobenzene, Yield (chemistry), Side chain, Organic chemistry, Epimer, Enzyme Inhibitors, Molecular Biology, Cholestenones
Abstract

3 beta-Hydroxy-25,26,26,26,27,27,27-heptafluoro-5 alpha-cholestan-15-one (4) has been prepared as part of a program to synthesize 15-ketosterols that are not readily metabolized to cholesterol or side-chain oxygenated species. Saponification of 3 beta-acetoxy-5 alpha-chola-8(14),23-dien-15-one (5) followed by lithium-ammonia reduction with a bromobenzene quench gave 3 beta-hydroxy-5 alpha-chol-23-en-15-one (6). Addition of (CF3)2CFI to 6 in the presence of triethylborane gave an iodide preparation, which was reduced to 4 with tributyltin hydride (71% overall yield of 4 from 5). The 23-iodide preparations consisted of 6:1 mixtures of (23R)-3 beta-hydroxy-23-iodo-25,26,26,26,27,27,27-heptafluoro-5 alpha-cholestan-15-one (9a) and its C-23 epimer 9b with variable amounts of 4. Compound 4 was also prepared by lithium-ammonia reduction of the delta 8(14) analogs of 4 and iodides 9a and 9b. The presence of small amounts of 6 in the latter product suggested a side reaction involving cleavage of the C24-C25 bond with loss of a (CF3)2CF radical. Also prepared were 25,26,26,26,27,27,27-heptafluoro-5 alpha-cholestane-3 beta, 15 alpha-diol, its 15 beta epimer, the 7 alpha-methyl analog of 4, 3 beta-hydroxy-7 alpha-methyl-5 alpha-cholestan-15-one (16), and (25R)-3 beta,26-dihydroxy-5 alpha-cholestan-15-one. Full 1H and 13C-NMR data of high precision with complete signal assignments are given for all new compounds. Definitive 1H-NMR stereochemical assignments of the C-24 protons were established for most sterols with a C8H17 side chain based on analysis of the downfield H-24 resonance in a 750-MHz spectrum of 16. Detailed electron-impact mass spectral data are presented together with a summary of major fragmentation patterns for 15-hydroxy- and 15-ketosteroids with and without a delta 8(14) bond.

Published
1997

76. Silver ion high pressure liquid chromatography provides unprecedented separation of sterols: application to the enzymatic formation of cholesta-5,8-dien-3 beta-ol

Author

Nicolas Gerst, George J. Schroepfer, William K. Wilson, Benfang Ruan, and Justin Shey

Subjects
Chromatography, Gas, Magnetic Resonance Spectroscopy, Silver, Double bond, Mass spectrometry, High-performance liquid chromatography, Gas Chromatography-Mass Spectrometry, Mass Spectrometry, Catalysis, Dehydrocholesterols, Molecule, Organic chemistry, Animals, Carbon Radioisotopes, Chromatography, High Pressure Liquid, chemistry.chemical_classification, Multidisciplinary, Chromatography, Molecular Structure, Chemistry, Cholestadienols, Nuclear magnetic resonance spectroscopy, Rats, Sterols, Proton NMR, Microsomes, Liver, Gas chromatography, Research Article
Abstract

We report that silver ion HPLC provides remarkable separations of C27 sterols differing only in the number or location of olefinic double bonds. This technique has been extended to LC-MS, analysis of purified components by GC, GC-MS, and 1H NMR, and to its use on a semipreparative scale. The application of this methodology for the demonstration of the catalysis, by rat liver microsomes, of the conversion of 7-dehydrocholesterol to cholesta-5,8-dien-3 beta-ol is also presented.

Published
1996

77. Inhibitors of sterol synthesis: 3 beta-hydroxy-25,26,26,26,27,27,27- heptafluoro-5 alpha-cholestan-15-one, an analog of a potent hypocholesterolemic agent in which its major metabolism is blocked

Author

Nicolas Gerst, William K. Wilson, Shankar Swaminathan, Abdul U. Siddiqui, G. J. Schroepfer, and Frederick D. Pinkerton

Subjects
Male, Lithium (medication), Stereochemistry, Biophysics, Tributyltin hydride, CHO Cells, Borane, In Vitro Techniques, Biochemistry, Chemical synthesis, Rats, Sprague-Dawley, chemistry.chemical_compound, Cricetinae, medicine, Animals, Molecular Biology, Anticholesteremic Agents, Cell Biology, Metabolism, Sterol synthesis, Cholestanones, Acyl coenzyme A, Rats, Jejunum, chemistry, Microsome, Hydroxymethylglutaryl-CoA Reductase Inhibitors, medicine.drug, Sterol O-Acyltransferase
Abstract

The chemical synthesis of 3 beta-hydroxy-25,26,26,26,27,27,27-heptafluoro- 5 alpha-cholestan-15-one (IV) has been pursued to provide an analog of the potent hypocholesterolemic agent 3 beta-hydroxy-5 alpha-cholest-8(14)-en-15-one (I) in which its major metabolism is blocked. Reduction of 3 beta-acetoxy-5 alpha-chola-8(14),23-dien-15-one with lithium in liquid ammonia gave 3 beta-hydroxy-5 alpha-chol-23-en-15-one (VI). Addition of (CF3)2CFI to VI in the presence of triethylborane gave 3 beta-hydroxy-23R-iodo-25,26,26,26,27,27,27-heptafluoro-5 alpha-cholestan- 15-one, which was reduced to IV with tributyltin hydride. IV was found to be highly active in lowering the levels of HMG-CoA reductase activity in CHO-K1 cells, in lowering acyl coenzyme A:cholesterol acyltransferase activity in jejunal microsomes, and in lowering serum cholesterol levels in rats.

Published
1994

78. Inhibitors of sterol synthesis. An improved chemical synthesis of 26-oxygenated delta 8(14)-15-ketosterols having the 25R configuration

Author

George J. Schroepfer, William K. Wilson, and Abdul U. Siddiqui

Subjects
Magnetic Resonance Spectroscopy, Diene, Stereochemistry, Organic Chemistry, Stereoisomerism, Cell Biology, Medicinal chemistry, Chemical synthesis, Biochemistry, Mass Spectrometry, Potassium carbonate, chemistry.chemical_compound, Hydrolysis, Sterols, Cholesterol, chemistry, Yield (chemistry), Acetone, Methanol, Isomerization, Molecular Biology, Chromatography, High Pressure Liquid
Abstract

(25R)-3 beta,26-Dihydroxy-5 alpha-cholest-8(14)-en-15-one (I) was synthesized in four steps from (25R)-3 beta,26-diacetoxycholesta-5,7-diene (III) in 30% overall yield. Isomerization of III with HCl in chloroform-dichloromethane at -60 degrees C gave (25R)-3 beta,26-diacetoxy-5 alpha-cholesta-7,14-diene together with the 5 alpha-delta 8,14 and 5 beta-delta 8,14 isomers in a 5:1:1 ratio. Epoxidation of the crude diene mixture with m-chloroperbenzoic acid, followed by hydrolysis in acetone containing concentrated HClO4 (0.1%) gave (25R)-3 beta,26-diacetoxy-5 alpha-cholest-8(14)-en-15-one (VIII), accompanied by numerous minor byproducts, including the 5 alpha,14 beta-delta 7, 5 alpha, 14 beta-delta 8 and 5 beta,14 beta-delta 8 isomers of VIII. All four 15-ketosterol esters were isolated by chromatography and fully characterized by mass spectrometry and 1H and 13C nuclear magnetic resonance. Treatment of VIII with potassium carbonate in degassed methanol gave I.

Published
1994

79. Inhibitors of sterol synthesis. Effects of fluorine substitution at carbon atom 25 of cholesterol on its spectral and chromatographic properties and on 3-hydroxy-3-methylglutaryl coenzyme A reductase activity in CHO-K1 cells

Author

Frederick D. Pinkerton, George J. Schroepfer, Nicolas Gerst, Shankar Swaminathan, and William K. Wilson

Subjects
Magnetic Resonance Spectroscopy, Trimethylsilyl, Stereochemistry, Coenzyme A, Clinical Biochemistry, CHO Cells, Biochemistry, High-performance liquid chromatography, Mass Spectrometry, chemistry.chemical_compound, Endocrinology, Desmosterol, Cricetinae, Animals, Molecular Biology, Pharmacology, Chromatography, Chemistry, Organic Chemistry, Fluorine, Carbon-13 NMR, Hydroxymethylglutaryl-CoA reductase, Sterol, Hydroxycholesterols, Sterols, Cholesterol, Hydroxymethylglutaryl CoA Reductases, Gas chromatography, Hydroxymethylglutaryl-CoA Reductase Inhibitors
Abstract

25-Fluorocholesterol (III) was prepared by treatment of 25-hydroxycholesterol (IV) with hydrogen fluoride-pyridine. Compounds III, IV, and cholesterol (I) were fully characterized by 1H and 13C NMR, and stereochemical assignments were established for the C-22 and C-23 protons. The side-chain proton assignments, which apply to most other sterols with a saturated eight-carbon side chain, were based on conformational analysis and comparisons with NMR data for 25,26,26,26,27,27,27-heptafluorocholesterol (II). The chromatographic behavior of I, II, and III were compared on thin-layer chromatography, high performance liquid chromatography, and gas chromatography. Major fragment ions in electron-impact mass spectra of III were analogous to ions of either cholesterol or desmosterol, and a similar analogy was observed for the trimethylsilyl ethers. The 25-hydroxysterol IV and the 25-fluorosterol III differed markedly in their effects on the levels of 3-hydroxy-3-methylglutaryl coenzyme A reductase activity in CHO-K1 cells. Whereas 25-hydroxycholesterol caused a approximately 66% lowering of reductase activity in cells at 0.1 microM, the 25-fluorosterol III had no effect at this concentration.

Published
1994

80. Inhibitors of sterol synthesis: effects of a 7 alpha-alkyl analog of 3 beta-hydroxy-5 alpha-cholest-8(14)-en-15-one on 3-hydroxy-3-methylglutaryl coenzyme A reductase activity in cultured mammalian cells and on serum cholesterol levels and other parameters in rats

Author

Alemka Kisic, Nicolas Gerst, William K. Wilson, Linda J. Kim, George J. Schroepfer, Frederick D. Pinkerton, and Abdul U. Siddiqui

Subjects
Male, Stereochemistry, Food consumption, CHO Cells, Biochemistry, Chemical synthesis, Rats, Sprague-Dawley, Eating, Structure-Activity Relationship, Cricetinae, Potency, Animals, Molecular Biology, Alkyl, Serum cholesterol, Cells, Cultured, Cholestenones, chemistry.chemical_classification, Chemistry, Organic Chemistry, 3 hydroxy 3 methylglutaryl coenzyme a reductase, Body Weight, Cell Biology, Organ Size, Sterol synthesis, Rats, Sterols, Cholesterol, Liver, Hydroxymethylglutaryl CoA Reductases, Reductase activity, Hydroxymethylglutaryl-CoA Reductase Inhibitors
Abstract

The 7 alpha-methyl analog (II) of 3 beta-hydroxy-5 alpha-cholest-8(14)-en-15- one (I) was prepared by chemical synthesis and evaluated with respect to its effects on HMG-CoA reductase activity in CHO-K1 cells and on serum cholesterol levels in rats. The 7 alpha-methyl substitution had no detectable effect on the potency of I in lowering HMG-CoA reductase activity in the cultured cells. In contrast, the 7 alpha-methyl substitution had a marked effect on the action of I in the suppression of food consumption in rats. Whereas II was less potent than I in lowering serum cholesterol levels in rats, it did so at dosage levels at which only slight or moderate effects on food consumption were observed. Full 1H and 13C-NMR assignments for II and intermediates in its synthesis have been presented. Conformational analysis, based on 1H-1H coupling constants, NMR shieldings and force-field calculations, indicated that the 7 alpha-methyl substitution had virtually no effect on the conformation of the 15-ketosterol apart from minor distortions of ring B.

Published
1994

81. Production of Meiosis-Activating Sterols from Metabolically Engineered Yeast

Author

William K. Wilson, Seiichi P. T. Matsuda, and Ran Xu

Subjects
musculoskeletal diseases, biology, Cholestenes, Chemistry, Cholestadienols, Mutant, Saccharomyces cerevisiae, General Chemistry, biology.organism_classification, Biochemistry, Catalysis, Yeast, Sterol, Genetically modified organism, Sterols, Colloid and Surface Chemistry, Sterol import, lipids (amino acids, peptides, and proteins), Fermentation, Genetic Engineering, Homologous recombination
Abstract

Meiosis-activating sterols (MAS), a class of potent regulators of reproductive processes, are difficult to obtain by chemical synthesis or isolation from natural sources. We demonstrate the development of metabolically engineered strains of Saccharomyces cerevisiae that accumulate MAS as the predominant sterol product. Homologous recombination was used to construct an erg24Delta erg25Delta hem1Delta mutant RXY4.3, which lacked sterol Delta14 reductase, C-4 oxidase, and delta-aminolevulinate synthase. The HEM1 deletion allowed sterol import and rendered RXY4.3 viable under aerobic conditions. This mutant accumulated 4,4-dimethyl-5alpha-cholesta-8,14,24-trien-3beta-ol (FF-MAS), and a similar erg25Delta hem1Delta mutant produced 4,4-dimethyl-5alpha-cholesta-8,24-dien-3beta-ol (T-MAS). Based on consistent yields of approximately 5 mug of FF-MAS per mL of culture, fermentation of genetically modified yeast compares favorably with other approaches to produce MAS.

Published
2002

82. Inhibitors of sterol synthesis. Chemical syntheses and spectral properties of 26-oxygenated derivatives of 3 beta-hydroxy-5 alpha-cholest-8(14)-en-15-one and their effects on 3-hydroxy-3-methylglutaryl coenzyme A reductase activity in CHO-K1 cells

Author

Karen E. Ruecker, George J. Schroepfer, Frederick D. Pinkerton, William K. Wilson, and Abdul U. Siddiqui

Subjects
chemistry.chemical_classification, Jones oxidation, Magnetic Resonance Spectroscopy, Stereochemistry, Carboxylic acid, Coenzyme A, Organic Chemistry, Pyridinium chlorochromate, Cell Biology, CHO Cells, Biochemistry, Sterol, Gas Chromatography-Mass Spectrometry, Hydrolysis, chemistry.chemical_compound, Sterols, Structure-Activity Relationship, chemistry, Cricetinae, Animals, Mitsunobu reaction, Hydroxymethylglutaryl-CoA Reductase Inhibitors, Molecular Biology, Enone, Cholestanols
Abstract

26-Oxygenated derivatives of delta 8(14)-15-ketosterols have been synthesized from (25R)-3 beta,26-diacetoxy-5 alpha-cholest-8(14)-en-15-one (IX) as part of a program to prepare potential metabolites and analogs of 3 beta-hydroxy-5 alpha-cholest-8(14)-en-15-one (I), a potent regulator of cholesterol metabolism. Partial hydrolysis of IX gave a mixture, from which the 3 beta,26-diol II and the 26-acetate (XI) and 3 beta-acetate (X) monoesters were isolated. Mitsunobu reaction of XI followed by hydrolysis gave (25R)-3 alpha,26-dihydroxy-5 alpha-cholest-8(14)-en-15-one (VI). Oxidation of XI with pyridinium chlorochromate followed by hydrolysis of the acetate gave (25R)-26-hydroxy-5 alpha-cholest-8(14)-ene-3,15-dione (VII). Oxidation of X with Jones reagent followed by hydrolysis of the acetate gave (25R)-3 beta-hydroxy-15-keto-5 alpha-cholest-8(14)-en-26-oic acid (IVa). Jones oxidation of II gave (25R)-3,15-diketo-5 alpha-cholest-8(14)-en-26-oic acid (VII). 1H and 13C nuclear magnetic resonance assignments and analyses of mass spectral fragmentation data are presented for each of the new compounds and their derivatives. The 3,15-diketone VII was found to be highly active in lowering the levels of 3-hydroxy-3-methylglutaryl coenzyme A reductase activity in CHO-K1 cells, with a potency comparable to that of I. In contrast, 3 alpha,26-diol VI was less potent than I or VII. The two carboxylic acid analogs IVa and VIII were considerably less potent than VI in lowering the levels of HMG-CoA reductase activity.

Published
1992

83. A Tyrosine-to-Threonine Mutation Converts Cycloartenol Synthase to an Oxidosqualene Cyclase that Forms Lanosterol as Its Major Product

Author

Seiichi P. T. Matsuda, Jennifer B. R. Herrera, and and William K. Wilson

Subjects
biology, Chemistry, Lanosterol, General Chemistry, Biochemistry, Catalysis, Oxidosqualene cyclase, chemistry.chemical_compound, Colloid and Surface Chemistry, Cycloartenol synthase, Product (mathematics), Mutation (genetic algorithm), biology.protein, Threonine, Tyrosine
Published
2000

84. Directed Evolution To Investigate Steric Control of Enzymatic Oxidosqualene Cyclization. An Isoleucine-to-Valine Mutation in Cycloartenol Synthase Allows Lanosterol and Parkeol Biosynthesis

Author

Jihai Pang, William K. Wilson, Elizabeth A. Hart, Lisa B. Darr, Seiichi P. T. Matsuda, and Ling Hua

Subjects
Steric effects, Mutation, biology, Lanosterol, General Chemistry, medicine.disease_cause, Directed evolution, Biochemistry, Catalysis, chemistry.chemical_compound, Colloid and Surface Chemistry, Biosynthesis, chemistry, Cycloartenol synthase, Valine, medicine, biology.protein, Isoleucine
Published
1999

85. Mechanistic insights into triterpene synthesis from quantum mechanical calculations. Detection of systematic errors in B3LYP cyclization energies

Author

William K. Wilson, Seiichi P. T. Matsuda, and Quanbo Xiong

Subjects
Ethylene Oxide, Squalene, Steric effects, Annulation, Hyperconjugation, Ring (chemistry), Methylation, Biochemistry, Cyclopropane, Ring strain, chemistry.chemical_compound, Isomerism, Computational chemistry, Cations, Physical and Theoretical Chemistry, Molecular Structure, Organic Chemistry, Triterpenes, Transition state, chemistry, Cyclization, Quantum Theory, Thermodynamics, Proton affinity, Pentacyclic Triterpenes, Oxidation-Reduction
Abstract

Most quantum mechanical studies of triterpene synthesis have been done on small models. We calculated mPW1PW91/6-311+G(2d,p)//B3LYP/6-31G* energies for many C30H51O+ intermediates to establish the first comprehensive energy profiles for the cationic cyclization of oxidosqualene to lanosterol, lupeol, and hopen-3beta-ol. Differences among these 3 profiles were attributed to ring strain, steric effects, and proton affinity. Modest activation energy barriers and the ample exothermicity of most annulations indicated that the cationic intermediates rarely need enzymatic stabilization. The course of reaction is guided by hyperconjugation of the carbocationic 2p orbital with parallel C-C and C-H bonds. Hyperconjugation for cations with a horizontal 2p orbital (in the plane of the ABCD ring system) leads to annulation and ring expansion. If the 2p orbital becomes vertical, hyperconjugation fosters 1,2-methyl and hydride shifts. Transition states leading to rings D and E were bridged cyclopropane/carbonium ions, which allow ring expansion/annulation to bypass formation of undesirable anti-Markovnikov cations. Similar bridged species are also involved in many cation rearrangements. Our calculations revealed systematic errors in DFT cyclization energies. A spectacular example was the B3LYP/6-311+G(2d,p)//B3LYP/6-31G* prediction of endothermicity for the strongly exothermic cyclization of squalene to hopene. DFT cyclization energies for the 6-311+G(2d,p) basis set ranged from reasonable accuracy (mPW1PW91, TPSSh with 25% HF exchange) to underestimation (B3LYP, HCTH, TPSS, O3LYP) or overestimation (MP2, MPW1K, PBE1PBE). Despite minor inaccuracies, B3LYP/6-31G* geometries usually gave credible mPW1PW91 single-point energies. Nevertheless, DFT energies should be used cautiously until broadly reliable methods are established.

Published
2006

86. George J. Schroepfer Jr

Author

William K. Wilson

Subjects
business.industry, Organic Chemistry, Medicine, Cell Biology, business, Biochemistry, Classics, Lipidology
Published
2000

87. Product Profile of PEN3: The Last Unexamined Oxidosqualene Cyclase in Arabidopsis thaliana.

Author

Pietro Morlacchi, William K. Wilson, Quanbo Xiong, Aparna Bhaduri, Diana Sttivend, Mariya D. Kolesnikova, and Seiichi P. T. Matsuda

Subjects
*PLANT enzymes, *ATP-binding cassette transporters, *BIOACTIVE compounds, *PLANT products, *ARABIDOPSIS thaliana, *TERPENES, *ORGANIC chemistry
Abstract

The triterpene product profile is reported for At5g36150 (PEN3), the last unexamined oxidosqualene cyclase in the reference plant Arabidopsis thaliana. PEN3 makes tirucalla-7,24-dien-3β-ol (∼85%) and several minor products. Also discussed are the unexpectedly facile convergent evolution of another Arabidopsistirucalladienol synthase (LUP5), mechanistic origins of the 20Sconfiguration, and active-site remodeling necessary to accommodate the 17α side chain. This work marks the first completed functional characterization of all triterpene synthases in a higher plant. [ABSTRACT FROM AUTHOR]

Published
2009
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89. Trinorlupeol: A Major Nonsterol Triterpenoid in Arabidopsis.

Author

Hui Shan, William K. Wilson, Dereth R. Phillips, Bonnie Bartel, and Seiichi P. T. Matsuda

Subjects
*ORGANIC synthesis, *ARABIDOPSIS, *BRASSICACEAE, *ARABIDOPSIS arenosa
Abstract

We report the structure determination of 20,29,30-trinorlup-18-en-3β-ol (trinorlupeol) and establish this novel C 27metabolite as a major nonsterol triterpenoid in Arabidopsis thaliana. Trinorlupeol was concentrated in cuticular waxes, notably in the plant stem, floral buds, and seedpods, but not in leaves. Based on expression data and functional characterization of A. thalianaoxidosqualene cyclases, we propose that LUP1 is the cyclase responsible for trinorlupeol biosynthesis. Also described are two oxidized trinorlupeols and additional biosynthetic insights. [ABSTRACT FROM AUTHOR]

Published
2008
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91. Determination of the enantiomeric purity of mevalonolactone via NMR using a chiral lanthanide shift reagent

Author

Cary J. Morrow, Terence J. Scallen, and William K. Wilson

Subjects
Lanthanide, Endocrinology, Chemistry, Reagent, Analytical chemistry, Cell Biology, QD415-436, Enantiomer, Enantiomeric excess, Racemization, Biochemistry
Abstract

Simple methods for determining the enantiomeric purity of mevalonolactone and linalool by NMR using the chiral shift reagent Eu(hfc)3 are reported. These methods are more reliable than polarimetry and require only a few milligrams of sample to detect as little as 2% of the minor enantiomer. The accuracy of these methods is limited primarily by spectral resolution for samples of high enantiomeric excess and by errors inherent in measuring peak intensities for samples of low enantiomeric excess. The Cornforth synthesis (Cornforth, R. M., J. W. Cornforth, and G. Popjak. 1962. Tetrahedron. 18: 1351-1354) of (S)-mevalonolactone from (R)-linalool has been improved and shown to proceed with negligible racemization.

Published
1982

92. Inhibitors of sterol synthesis. Chemical synthesis of 5 beta-cholest-8-ene-3 beta,15 alpha-diol and its effects on 3-hydroxy-3-methylglutaryl coenzyme A reductase activity in CHO-K1 cells

Author

Nanda Duhe Kirkpatrick, William K. Wilson, Frederick D. Pinkerton, and George J. Schroepfer

Subjects
Stereochemistry, Chemistry, Coenzyme A, Chinese hamster ovary cell, Diol, Cell Biology, QD415-436, Chemical synthesis, Biochemistry, Sterol, Hydroboration, chemistry.chemical_compound, Endocrinology, Beta (finance), Ene reaction
Abstract

5 beta-Cholest-8-ene-3 beta,15 alpha-diol, prepared by hydroboration of 5 beta-cholesta-8,14-dien-3 beta-ol, was determined to have the 14 alpha-H,15 alpha-OH configuration by comparisons of observed and calculated lanthanide-induced shifts for the 3-tertbutyldimethylsilyl derivative. The 3 beta,15 alpha-diol was found to exist partially in a conformation in which ring B is a 5 beta, 6 alpha-half chair and the axial-equatorial orientation of ring A substituents is reversed. This conformation has been observed previously for 3 beta-(p-bromobenzoyloxy)-5 beta-cholesta-8,14-diene and for some cis-decalin derivatives. 5 beta-Cholest-8-ene-3 beta,15 alpha-diol was found to be highly active in the lowering of the levels of 3-hydroxy-3-methylglutaryl coenzyme A reductase activity in Chinese hamster ovary cells and only slightly less active than the corresponding sterol (5 alpha-cholest-8-ene-3 beta,15 alpha-diol) with the trans A-B ring junction.

Published
1989

93. Inhibitors of sterol synthesis. Spectral characterization of derivatives of 5 alpha-cholest-8(14)-en-3 beta-ol-15-one

Author

William K. Wilson, J St Pyrek, and George J. Schroepfer

Subjects
Trimethylsilyl, Stereochemistry, Alpha (ethology), QD415-436, Cell Biology, Biochemistry, Sterol synthesis, chemistry.chemical_compound, Endocrinology, chemistry, Deuterium, Fragmentation (mass spectrometry), Spectral data, Beta (finance), Electron ionization
Abstract

Described herein are the chemical syntheses of a number of deuterated derivatives of 5 alpha-cholest-8(14)-en-3 beta-ol-15-one. These include the [2,2,3 alpha,4,4,7,7,9 alpha,16,16-2H10]-, [7 alpha,9 alpha,16,16-2H4]-, [7,7,9 alpha,16,16-2H5]-, and [2,2,3 alpha,4,4-2H5]-analogs of the delta 8(14)-15-ketosterol. Also included are the syntheses of the 3 beta-acetate derivatives of the latter three deuterated analogs and of 5 alpha-cholest-8(14)-en-3 beta-ol-15-one, and 5 alpha-cholest-8(14)-en-3 alpha-ol-15-one. Low resolution mass spectral data on these compounds and on 5 alpha-cholest-8(14)-en-15-one, 5 alpha-cholest-8(14)-en-3 beta-ol-15-one, 5 alpha-cholest-8(14)-en-3 alpha-ol-15-one, 3 beta-benzoyloxy-5 alpha-cholest-8(14)-en-15-one, and the trimethylsilyl ethers of the free sterols have been presented. The results of these studies, supplemented with high resolution mass spectral data on five of these compounds, have been used to evaluate the electron impact mass spectral fragmentation of the delta 8(14)-15-ketosterols and their derivatives. Also presented herein are the results of 1H, 2H, and 13C nuclear magnetic resonance studies of 5 alpha-cholest-8(14)-en-3 beta-ol-15-one and its derivatives.

Published
1987

94. Inhibitors of sterol synthesis. Chemical synthesis, structure, and biological activities of (25R)-3 beta,26-dihydroxy-5 alpha-cholest-8(14)-en-15-one, a metabolite of 3 beta-hydroxy-5 alpha-cholest-8(14)-en-15-one

Author

David K. Wilson, Dolores H. Needleman, William K. Wilson, Florante A. Quiocho, Hong-Seok Kim, George J. Schroepfer, and Frederick D. Pinkerton

Subjects
Allylic rearrangement, biology, Stereochemistry, Metabolite, Coenzyme A, QD415-436, Cell Biology, Diosgenin, Reductase, Biochemistry, Chemical synthesis, Cofactor, chemistry.chemical_compound, Endocrinology, chemistry, biology.protein, Microsome
Abstract

3 beta-Hydroxy-5 alpha-cholest-8(14)-en-15-one (I) is a potent inhibitor of sterol synthesis with significant hypocholesterolemic activity. (25R)-3 beta,26-Dihydroxy-5 alpha-cholest-8(14)-en-15-one (II) has been shown to be a major metabolite of I after incubation with rat liver mitochondria. Described herein is the chemical synthesis of II from diosgenin. As part of this synthesis, improved conditions are described for the conversion of diosgenin to (25R)-26-hydroxycholesterol. Benzoylation of the latter compound gave (25R)-cholest-5-ene-3 beta,26-diol 3 beta,26-dibenzoate which, upon allylic bromination followed by dehydrobromination, gave (25R)-cholesta-5,7-diene-3 beta,26-diol 3 beta,26-dibenzoate. Hydrogenation-isomerization of the delta 5.7-3 beta,26-dibenzoate to (25R)-5 alpha-cholest-8(14)-ene-3 beta,26-diol 3 beta,26-bis(cyclohexanecarboxylate) followed by controlled oxidation with CrO3-dimethylpyrazole gave (25R)-3 beta,26-dihydroxy-5 alpha-cholest-8(14)-en-15-one 3 beta,26-bis(cyclohexanecarboxylate). Acid hydrolysis of the delta 8(14)-15-ketosteryl diester gave II. 13C NMR assignments are given for all synthetic intermediates and several major reaction byproducts. The structure of II was unequivocally established by X-ray crystal analysis. II was found to be highly active in the suppression of the levels of 3-hydroxy-3-methylglutaryl coenzyme A reductase in cultured mammalian cells and to inhibit oleoyl coenzyme A-dependent esterification of cholesterol in jejunal microsomes.

Published
1989

95. Comparison of Accelerated Aging of Book Papers in 1937 with 36 Years Natural Aging

Author

E. J. Parks and William K. Wilson

Subjects
Gerontology, Materials science, Natural aging, chemistry.chemical_element, Conservation, Accelerated aging, Copper, chemistry, Wet strength, Ultimate tensile strength, Media Technology, General Materials Science, Alpha-Cellulose, Composite material
Abstract

The study of the same papers aged naturally and artificially resulted in the following conclusions: 1) reasonably good correlations exist between changes in alpha cellulose and copper number; 2) pH is a reasonably good criterion of stability; and 3) the data indicate that zero span tensile and wet strength as a percent of dry strength should be useful criteria.

Published
1980

96. 1H and13C NMR assignments for lanostan-3β-ol derivatives: Revised assignments for lanosterol

Author

William K. Wilson, George J. Schroepfer, and Gary T. Emmons

Subjects
chemistry.chemical_compound, Agnosterol, chemistry, Stereochemistry, Lanosterol, Chemical solution, General Materials Science, General Chemistry, Nuclear magnetic resonance spectroscopy, Carbon-13 NMR, DEPT, Lanostane
Abstract

1H and 13C NMR assignments are presented for 30 oxygenated lanostane derivatives, including lanosterol, dihy-drolanosterol, 7-ketolanosterol, agnosterol, 24,25-epoxylanosterol, 8α,9α-epoxylanostan-3β-ol, three 15-oxygenated derivatives of lanost-7-en-3β-ol, lanostane-3β,7α-diol, lanostane-3β,9α-diol and their acetates. These assignments, which were largely determined by a combination of DEPT, one-boad and long-range 13C1H chemical shift correlation and lanthanide-induced shift experiments, are not dependent on previously reported assignments, several of which were found to be incorrect. 1H and 13C acetylation shifts for lanostan-3β-ols were sufficiently invariant among the sterols studied that they were useful for assigning carbons in rings A and B. The acetylation shifts reported for lanostan-3β-ols were extended and partially revised.

Published
1989

97. Acid-catalyzed isomerization of 7-dehydrocholesterol benzoate. A revised mechanism and an improved synthetic procedure

Author

William K. Wilson and George J. Schroepfer

Subjects
7-Dehydrocholesterol, chemistry.chemical_compound, Acid catalysis, Chemistry, Stereochemistry, medicine.medical_treatment, Acid catalyzed, Organic Chemistry, medicine, Reaction intermediate, Isomerization, Steroid
Abstract

Isolement et identification de nouveaux intermediaires et de produits secondaires dans l'isomerisation du steroide du titre

Published
1988

98. Enzymatic formation and chemical synthesis of an active metabolite of 3β-hydroxy-5α-cholest-8(14)-en-15-one, a potent regulator of cholesterol metabolism

Author

George J. Schroepfer, Thomas W. Stephens, Jan St. Pyrek, Dolores H. Needleman, Janice L. Vermilion, Frederick D. Pinkerton, William K. Wilson, and Hong-Seok Kim

Subjects
Chemical Phenomena, Stereochemistry, Coenzyme A, Biophysics, Mitochondria, Liver, Biochemistry, Chemical synthesis, Cell Line, chemistry.chemical_compound, Microsomes, Animals, Molecular Biology, Cholestenones, Active metabolite, chemistry.chemical_classification, Cholestenes, Cholesterol, Esters, Cell Biology, Carbon-13 NMR, Hydroxymethylglutaryl-CoA reductase, Rats, Chemistry, Jejunum, Enzyme, chemistry, Microsome, Hydroxymethylglutaryl CoA Reductases
Abstract

The enzymatic (rat liver mitochondria) conversion of 3 beta-hydroxy-5 alpha-cholest-8(14)-en-15-one to 5 alpha-cholest-8(14)-ene-3 beta,26-diol-15-one is described. The enzymatic product was judged, on the basis of IH and 13C NMR studies, to be a 4:1 mixture of its 25R and 25S isomers. (25R)-5 alpha-Cholest-8(14)-ene-3 beta,26-diol-15-one was prepared through a five-step synthesis from (25R)-26-hydroxycholesterol. The (25R) isomer of the new compound was found to be highly active in the suppression of the levels of 3-hydroxy-3-methylglutaryl coenzyme A reductase activity in cultured mammalian cells and to inhibit the esterification of cholesterol in jejunal microsomes.

Published
1988

99. Inhibitors of sterol synthesis. Concerning the structure of 15β-methyl-5α,14β-cholest-7-ene-3β,15α-diol, an inhibitor of cholesterol biosynthesis

Author

Edward J. Parish, Samuel T. Bowen, Florante A. Quiocho, William K. Wilson, and George J. Schroepfer

Subjects
Stereochemistry, Organic Chemistry, Diol, Cell Biology, Ring (chemistry), Biochemistry, Chemical synthesis, Crystal, chemistry.chemical_compound, Biosynthesis, chemistry, Molecular Biology, Unit (ring theory), Ene reaction, Cholesterol biosynthesis
Abstract

The chemical synthesis of 3β-p-bromobenzoyloxy-15β-methyl-5α,14β-cholest-7-en-15α-ol from 15β-methyl-5α, l4β-cholest-7-ene-3β,15α-diol is described. The structure of the former compound was unambiguously determined by X-ray crystallographic analysis. The space group of the crystal was P21 with unit cell parameters a = 12.611 A, b = 9.826 A, c = 13.221 A, b = 91.71° and Z = 2. The structure was solved by the heavy atom method and refined to a final R of 0.041. Asymmetry parameters indicated that ring A is a symmetrical chair, that rings B and C are half chairs, and that ring D is a 15α-envelope.

Published
1988

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