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1.
《Carbohydrate research》1985,140(1):51-59
The reaction of benzyl 2-benzamido-4,6-O-benzylidene-2-deoxy-3-O-tosyl-α-d-glucopyranoside or benzyl 4,6-O-benzylidene-2,3-benzoylepimino-2,3-dideoxy-α-d-allopyranoside with anhydrous tetrabutylammonium fluoride in hexamethylphosphoric triamide gave ∼40% of benzyl 3-benzamido-4,6-O-benzylidene-2,3-dideoxy-2-fluoro-α-d-altropyranoside (6a). Transformation of 6a into benzyl 3-benzamido-2,3,6-trideoxy-2-fluoro-α-d-arabino-hex-5-enopyranoside (13a) was carried out by well-established methodology. Hydrogenation of the double bond in 13a furnished the title compound in good yield. Methyl 3-benzamido-2,3,6-trideoxy-2-fluoro-β-l-galactopyranoside was also prepared in nine steps from 2-amino-2-deoxy-d-glucose.  相似文献   

2.
Jianguo Cui  Hui Wang  Yanmin Huang  Yi Xin  Aimin Zhou 《Steroids》2009,74(13-14):1057-1060
Disodium 3β,6β-dihydroxy-5α-cholestane disulfate (1) was synthesized in 4 steps with a high overall yield from cholesterol. First, cholesterol (4a) was converted to cholest-4-en-3,6-dione (5a) via oxidation with pyridinium chlorochromate (PCC) and then 5a was reduced by NaBH4 in the presence of NiCl2 to produce cholest-3β,6β-diol (6a). The reaction of 6a with the triethylamine-sulfur trioxide complex generated diammonium 3β,6β-dihydroxy-5α-cholestane disulfate (7a) and the treatment of 7a by cation exchange resin 732 (sodium form)(Na+) yielded the target steroid 1. Disodium 24-ethyl-3β,6β-dihydroxycholest-22-ene disulfate (2) and disodium 24-ethyl-3β,6β-dihydroxycholestane disulfate (3) were synthesized using a similar method. The cytotoxicity of these compounds against Sk-Hep-1 (human liver carcinoma cell line), H-292 (human lung carcinoma cell line), PC-3 (human prostate carcinoma cell line) and Hey-1B (human ovarian carcinoma cell line) cells was investigated. Our results indicate that presence of a cholesterol-type side chain at position 17 is necessary for their biological activity.  相似文献   

3.
Deamination of methyl 5-amino-5,6-dideoxy-2,3-O-isopropylidene-α-L-talofuranoside (6) with sodium nitrite in 90% acetic acid at ≈0° gave methyl 6-deoxy-2,3-O-isopropylidene-α-L-talofuranoside (8a) and methyl 6-deoxy-2,3-O-isopropylidene-β-D-allofuranoside (9a) (combined yield, 12.3%), the corresponding 5-acetates 8b (2.9%) and 9b (26.4%), and the unsaturated sugar methyl 5,6-dideoxy-2,3-O-isopropylidene-β-D-ribo-hex-5-enofuranoside (10) (43.5%). Similar deamination of methyl 5-amino-5,6-dideoxy-2,3-O-isopropylidene-β-D-allofuranoside (7) gave 8a and 9a (combined yield, 20.4%), 8b (12.5%), 9b (25.8%), 10 (7.7%), and the rearranged products 6-deoxy-2,3-O-isopropylidene-5-O-methyl-L-talofuranose (13a, 17.5%) and the corresponding 1-acetate 13b (14.1%). A synthesis of 13a was accomplished by successive methylation and debenzylation of the conveniently prepared benzyl 6-deoxy-2,3-O-isopropylidene-α-L-talofuranoside (15b). Differences between the two sets of deamination products can be rationalized by assuming that the carbonium-ion intermediate reacts in the initial conformation assumed, before significant interconversion to other conformations occurs.  相似文献   

4.
Stereospecific hydroxylation of (E)-3-deoxy-1,2:5,6-di-O-isopropylidene-3-C-(methoxycarbonylmethylene)-α-D-xylo-hexofuranose (2) with potassium permanganate in pyridine afforded pure 3-C-[(R)-hydroxy(methoxycarbonyl)methyl]-1,2:5,6-di-O-isopropylidene-α-D-galactofuranose (5) in 55% yield. Mesylation of the diol 5 in pyridine yielded the monomethanesulfonate 6 and, in addition, a small proportion of an unsaturated, exocyclic sulfonate 7. Treatment of 6 with sodium azide in N-N-dimethylformamide and reduction of the resultant α-azido ester 9 afforded methyl D- (and L-) 2-(1,2:5,6-di-O-isopropylidene-α-D-galactofuranos-3-yl)glycinate, (11a) and (10a), respectively. Basic hydrolysis of 11a and 10a yielded D- and L-2-(1,2:5,6-di-O-isopropylidene-α-D-galactofuranos-3-yl)glycine (11b) and (10b), respectively. The structures of the glycosyl α-amino acids were correlated with that of L-alanine by circular dichroism.  相似文献   

5.
A number of unexpected reactions were observed during attempts to invert configuration at C16 in 16α,17α,22-triol 3a. The PDC oxidation of 3a produced the D-seco-aldehyde 4a. Analogous compound 4b was obtained by Swern oxidation of the 16α,17α-dihydroxy-22-O-TES-ether 3b in addition to the desired 16-ketone 7. The unprotected triol 3a yielded pentacyclic products 5 and 6 under similar conditions. The Mitsunobu reaction of the triol 3a afforded 16-ketone 8 with inverted configuration of the side chain. During heating of a solution of 3a in THF with NaH at reflux autoxidation to the 16-ketone cyclic hemiketal 5, identical to one of the Swern oxidation products, took place.  相似文献   

6.
Seven steroidal lactones of the withanolide series have been isolated as minor constituents of the leaves of Withania somnifera Dun. (Solanaceae) chemotype I, along with the major component withaferin A. Structures have been assigned to the new compounds: withanolide N (17α,27-dihydroxy-1-oxo-20R,22R-witha-2,5,14,24-tetraenolide) (6a) and withanolide O (4β,17α-dihydroxy-1-oxo-20R,22R-witha-2,5,8(14),24-tetraenolide) (7a). Similarly the leaves of W. somnifera chemotype II afforded three new withanolides along with the major component withanolide D (9a) and trace amounts of withanolide G (10). The new compounds are: 27-hydroxywithanolide D(4β,20α,27-trihydroxy-1-oxo-5β,6β-epoxy-20R,22R-witha-2,24-dienolide) (11a), 14α-hydroxywithanolide D (4β,14α,20α-trihydroxy-1-oxo-5β,6β-epoxy-20R,22R-witha-2,24-dienolide) (12a) and 17α-hydroxywithanolide D (4β,17β,20α-trihydroxy-1-oxo-5β,6β-epoxy-20S,22R-witha-2,24-dienolide) (13a). Whereas all the withanolides of chemotype I are unsubstituted at C-20 (20α-H), those of chemotype II possess an OH at this position (20α-OH).  相似文献   

7.
Two hitherto unknown brassinolide analogues, (22R,23R)-2α,3α,22,23-tetrahydroxy-B-homo-7-oxa-24-nor-5α-cholestan-6-one (9b) and (22R,23R)-2α,3α,22,23-tetrahydroxy-24-nor-5α-cholestan-6-one (8a), were stereoselectively synthesized. In both the Raphanus and rice-lamina inclination tests, 9b exhibited almost the same activity as brassinolide (1) and 8a also showed ca 10–50% of the activity of 1.  相似文献   

8.
Stereospecific hydroxylation of 3-deoxy-1,2:5,6-di-O-isopropylidene-3-C-trans-and 3-C-cis-(methoxycarbonylmethylene)-α-D-ribo-hexofuranose (2 and 3, respectively), with potassium permanganate in pyridine afforded 3-C-[S- and R-hydroxy-(methoxycarbonyl)methyl]-1,2:5,6-di-O-isopropylidene-α-D-glucofuranose, (6 and 7, respectively), in a combined yield, after chromatography, of 43%. Selective formation of monomethanesulfonates (9a and 10a) and p-toluenesulfonates (9b and 10b), followed by treatment with sodium azide and reduction of the azide, afforded the methyl 2-D-(and 2-L-)(3-deoxy-1,2:5,6-di-O-isopropylidene-α-D-glucofuranos-3-yl)-glycinates (12a and 13a, respectively). Basic hydrolysis of the latter compounds yielded 2-D- and 2-L-(3-deoxy-1,2:5,6-di-O-isopropylidene-α-D-glucofuranos-3-yl)glycine (12b and 13b, respectively). The structures of the glycosyl amino acids were correlated with that of L-alanine by circular dichroism.  相似文献   

9.
The effective method of isolation, separation and purification of (?)-α- and (+)-β-thujone (1a and 1b) from Thuja occidentalis was elaborated. Chemical (m-CPBA) and microbial Baeyer–Villiger oxidation of (?)-α- and (+)-β-thujone was carried out. Four new bicyclic δ-lactones (2a, 2b, 3a and 3b) with condensed cyclopropane ring were obtained.  相似文献   

10.
Addition of 2-amino-2-deoxy-β-D-glucopyranose to dimethyl acetylenedicarboxylate afforded an almost quantitative yield of amorphous 2-deoxy-2-(1,2-dimethoxycarbonylvinyl)amino-D-glucose (5). Acetylation of this adduct gave crystalline 1,3,4,6-tetra-O-acetyl-2-deoxy-2-[(Z)-1,2-dimethoxycarbonylvinyl]amino-α-D-glucopyranose (6a); the corresponding β-D anomer (6b) was obtained by addition of 1,3,4,6-tetra-O-acetyl-2-amino-2-deoxy-β-Dglucopyranose to dimethyl acetylenedicarboxylate. O-Deacetylation of tetra-acetate 6a with barium methoxide in methanol occurred selectively at C-1, yielding enamine 6c derived from 3,4,6-tri-O-acetyl-2-amino-2-deoxy-α-D-glucopyranose. Conversion of the crude adduct 5 into 3-methoxycarbonyl-5-(D-arabino-tetrahydroxybutyl)-2-pyrrolecarboxylic acid (7) took place by heating in water or in slightly basic media in yields up to 83%. Acetylation of 7 gave the tricyclic derivative 8, and its periodate oxidation afforded 5-formyl-3-methoxycarbonyl-2-pyrrolecarboxylic acid (9). Oxidation of 9 with alkaline silver oxide yielded 3-methoxy-carbonyl-2,5-pyrroledicarboxylic acid (10).  相似文献   

11.
The inhibitory activity of 4,4′-dihydroxy-α-truxillic acid and its derivatives (5-1a5-35a) on nitric oxide (NO) release was evaluated in lipopolysaccharide (LPS)-stimulated RAW 264.7 macrophages. Compounds 5-3a, 5-4a, 5-5a, 5-10a, 5-24a, 5-26a and 5-30a exhibited significant inhibitory effects on NO production, with IC50 values of 19.8, 21.1, 16.4, 17.5, 20.8, 22.6 and 17.6 μM, respectively. Their cytotoxicities were also estimated using a CCK-8 assay. Among them, compound 5-10a showed no cytotoxic effect on cells up to a concentration of 50 μM. The structure–activity relationships of the compounds are also discussed.  相似文献   

12.
13.
It is well known that testosterone (T) under the influence of 5α-reductase enzyme is converted to dihydrotestosterone (DHT), which causes androgen-dependent diseases. The aim of this study was to synthesize new dehydroepiandrosterone derivatives (3ae, 4ai, 6 and 7) having potential inhibitory activity against the 5α-reductase enzyme. This paper also reports the in vivo pharmacological effect of these steroidal molecules. The results from this study showed that all compounds exhibited low inhibitory activity for 5α-reductase type 1 and 2 enzymes and they failed to bind to the androgen receptor. Furthermore, in the in vivo experiment, steroids 3b, 4f, and 4g showed comparable antiandrogenic activity to that of finasteride; only derivatives 4d and 7 produced a considerable decrease in the weight of the prostate gland of gonadectomized hamsters treated with (T). On the other hand, compounds 4a, f and h showed 100% inhibition of the growth of prostate cancer cell line PC-3, with compound 4g having a 98.2% antiproliferative effect at 50 μM. The overall data indicated that these steroidal molecules, having an aromatic ester moiety at C-3 (4fh), could have anticancer properties.  相似文献   

14.
The incorporation of [Me-14C] from SAM-[Me-14C] into precursors indicates the following sequence of tocopherol synthesis in spinach: 2-methyl-6-phytylquinol (6-phytyltoluquinol) (1a) → 2,3-dimethyl-5-phytylquinol (phytylplastoquinol) (2a)→,γ-tocopherol (5a)→α-tocopherol (6). 1a is particularly preferred to 2-methyl-5-phytylquinol (1b) and 2-methyl-3-phytylquinol (1c). 1a only forms 2a. 2a is converted to 6 via 5a and, to a lesser extent, 2,5-dimethyl-6-phylquinol (2b) to 6 via β-tocopherol (5b). Trimethylphytylquinol (3) is not an intermediate in the formation of 6. All reactions are independent of light.  相似文献   

15.
A new and practical method for a stereoselective construction of a steroid 5α,7α-oxymethylene derivative has been developed and successfully applied to the stereoselective synthesis of eplerenone (8). Starting with available 11α-hydroxyl canrenone (1), eplerenone (8) was synthesised in seven steps with a 48% overall yield.  相似文献   

16.
The present study is addressed to ascertain the inhibitory effect of several progesterone derivatives having a chlorine substituent at C-6 (12a12d), 15 with a bromine substituent at C-6 and 14a14d, without any halogen atom at C-6 all having an ester side chain at C-17 (benzoate ester bearing a Cl, F and a Br atom at C-4 position of the phenyl ring) on the 5α-reductase enzyme activity present in human prostate. In addition, it was also of interest to investigate the pharmacological effect on hamster flank organs diameter size.In order to study the structure–activity relationships of steroids 12a12d, 14a14d and 15 we determined the concentration of these steroids that inhibited 50% of the activity of human prostate 5α-reductase enzyme (IC50), as well as the in vivo effect of these compounds in the hamster flank organs diameter size. We also ascertained, the capacity of these steroids to bind to the androgen receptors present in the rat prostate cytosol using labeled mibolerone (MIB) for monitoring the binding to the androgen receptor.The results from this study indicated that compounds 12a12d (having a chlorine substituent at C-6), 14a14d (lacking a halogen atom at C-6), 13 and 15 (having a bromine atom at C-6) showed an increased antiandrogenic effect (lower value for the diameter of the flank organs) as compared to the flank organs from testosterone-treated hamsters. On the other hand, the series of compounds containing a chlorine substituent at C-6 compounds (12a12d) showed a higher antiandrogenic activity as compared to the compounds lacking a halogen atom at C-6 (14a, 14b and 14d). Although compounds 13 and 15 decreased the flank organs diameter size, however, this increase was not statistically significant as compared to that of the commercially available product finasteride. The steroidal derivatives 13, 14a14d (lacking the chlorine substituent at C-6) and 15 (having a bromine atom at C-6) exhibited a higher 5α-reductase inhibitory activity (lower IC50 values) as compared to the series of compounds 12a12d having the halogen substituent at C-6.Finasteride reduced the diameter size of the flank organs. The effect of this steroid and compounds 12a12d, 13, 14a14d and 15 on hamster flank organs can be explained by the fact that these steroids did not bind to the androgens receptor, which indicates that its mechanism of action is an inhibiting for the 5α-reductase activity. This enzyme is present in the hamster flank organs and was inhibited by the novel steroids in the human prostate homogenates.  相似文献   

17.
Four aldohexoses were individually subjected to the reagent mixture and temperature cited in the title; in each case, the 2,2-dimethoxypropane was present in only a small molar excess and the p-toluenesulfonic acid was used in trace amounts. D-Mannose (1) afforded the known 2,3:5,6-di-O-isopropylidene-D-mannofuranose (2) in significantly higher yield than when the reaction was conducted at room temperature. The other three aldoses, however, gave products markedly different from those formed under the milder conditions. 2-Acetamido-2-deoxy-D-mannose (3) gave a mixture of products from which methyl 2-acetamido-2-deoxy-2,3-N,O-isopropylidene-5,6-O-isopropylidene-α-D-mannofuranoside (4), 2-acetamido-2-deoxy-2,3-N,O-isopropylidene-5,6-O-isopropylidene-D-mannofuranose (5a), and methyl 2-acetamido-2-deoxy-5,6-O-isopropylidene-α-D-mannofuranoside (6a) were isolated. 2-Acetamido-2-deoxy-D-galactose (11) gave compounds identified as methyl 2-acetamido-2-deoxy-5,6-O-isopropylidene-β-D-galactofuranoside (12a) and methyl 2-acetamido-2-deoxy-4,6-O-isopropylidene-β-D-galactopyranoside (13a). 2-Acetamido-2-deoxy-D-glucose (16) afforded methyl 2-acetamido-2-deoxy-5,6-O-isopropylidene-β-D-glucofuranoside (17a) and methyl 2-acetamido-2-deoxy-4,6-O-isopropylidene-β-D-glucopyranoside (18a). Evidence in support of the structures assigned to these new derivatives is presented.  相似文献   

18.
The alleles of the yeast mating type locus, MATα and MATa, determine the yeast cell types, a,α, and a/α. It has been proposed that the MATα2 product negatively regulates expression of unlinked a-specific genes, and that the MATα1 product positively regulates expression of unlinked α-specific genes. The behavior of mutants defective in MATα2, which are deficient in mating and in production of α-factor, can thus be attributed to antagonism between a-specific and α-specific functions expressed simultaneously in matα2? strains. If this view is correct, then elimination by mutation of the specific functions required to mate as α may allow matα2 mutants to mate as a. In order to test this possibility, we examined the interactions between matα2 mutations and various unlinked mutations that cause α cells but not a cells to be mating defective (α-specific STE mutations). Three α-specific mutations (ste3, ste13 and kex2) were found to be non-allelic. Furthermore, although matα2 mutants mate weakly as a, matα2, ste3 double mutants, but not matα2 ste13 or matα2 kex2 double mutants, mate efficiently as a. The ability of matα2 ste3 strains to mate as a supports the view that matα2 mutants express a-specific mating functions, and suggests that a mating functions are expressed constitutively in MATa cells. The mating behaviour of the matα2 ste3 double mutant is consistent with the proposal that STE3 is positively regulated by the MATα1 product.  相似文献   

19.
20.
Treatment of methyl β-d-ribofuranoside with acetone gave methyl 2,3-O-isopropylidene-β-d-ribofuranoside (1, 90%), whereas methyl α-d-ribofuranoside gave a mixture (30%) of 1 and methyl 2,3-O-isopropylidene-α-d-ribofuranoside (1a). On oxidation, 1 gave methyl 2,3-O-isopropylidene-β-d-ribo-pentodialdo-1,4-furanoside (2), whereas no similar product was obtained on oxidation of 1a. Ethynylmagnesium bromide reacted with 2 in dry tetrahydrofuran to give a 1:1 mixture (95%) of methyl 6,7-dideoxy-2,3-O-isopropylidene-β-d-allo- (3) and -α-l-talo-hept-6-ynofuranoside (4). Ozonolysis of 3 and 4 in dichloromethane gave the corresponding d-allo- and l-talo-uronic acids, characterized as their methyl esters (5 and 6) and 5-O-formyl methyl esters (5a and 6a). Ozonolysis in methanol gave a mixture of the free uronic acid and the methyl ester, and only a small proportion of the 5-O-formyl methyl ester. Malonic acid reacted with 2 to give methyl 5,6-dideoxy-2,3-O-isopropylidene-β-d-ribo-trans-hept-5-enofuranosiduronic acid (7).  相似文献   

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