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Query: UMLS:C0338671 (Steroids)
 9,479 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Chenodeoxycholate (3alpha-, 7alpha-dihydroxy-5beta-cholanoate) was linked to Sepharose 4B by an ethylenediamine bridge. When 3alpha-hydroxysteroid dehydrogenase and 7alpha-hydroxysteroid dehydrogenase preparations were applied to a column of covalently linked chenodeoxycholate, both enzymes were retarded at pH 6.7; the 7alpha-OH oriented enzyme more than the 3alpha-OH enzyme. Approximately forty-fold purification of 7alpha-hydroxysteroid dehydrogenase was achieved in one step. Although no significant purification of 3alpha-hydroxysteroid dehydrogenase occurred, the background value in the fluorometric enzymatic estimation of bile acids by eluted 3alpha-hydroxysteroid dehydrogenase was markedly reduced. Molecular weight estimation by Sephadex G-200 gave the values of 47,000 for 3alpha-hydroxysteroid dehydrogenase and 105,000 for 7alpha-hydroxysteroid dehydrogenase.
Steroids 1976 Jul
PMID:Behavior of 3alpha- and 7alpha-hydroxysteroid dehydrogenases on chenodeoxycholate substituted Sepharose. 96 Jan 46

5beta-Cholestane-3alpha, 7alpha, 25-triol and 5beta-cholestane-3alpha, 7alpha, 25-24(14-C)-triol were synthesized from 3alpha, 7alpha-dihydroxy-5beta-cholanoic acid (chenodeoxycholic acid). Chenodeoxycholic acid was converted to the diformoxy derivative (II) using formic acid. Reaction of II with thionyl chloride yielded the acid chloride which was treated with diazomethane (CH-2-N-2 or 14-CH-2-N-2) to produce 3alpha, 7alpha-diformoxy-24-oxo-25-diazo-25-homocholane (III, A or B). 25-Homochenodeoxycholic acid (IV, A or B) was formed from III by means of the Wolff rearrangement of the Arndt-Eistert synthesis. The methyl ester of V (A or B) was treated with methyl magnesium iodidi in ether to provide the desired triol, VI (A and B). The triol was identified by mass spectrometry and elemental analysis and was characterized by thin-layer and gas-liquid chromatography. The 3alpha, 7alpha, 25-triol is of possible significance as an intermediate in the pathway of bile acid formation from cholesterol.
Steroids 1975 Mar
PMID:New bile alcohols--synthesis of 5beta-cholestane-3alpha, 7alpha, 25-triol and 5beta-cholestane-3alpha, 7alpha, 25-24 (14C)-triol. 114 73

The multicomponent analysis of faecal steroids is described. Steroids were removed from faeces by solvent stripping in a Soxhlet apparatus and the resulting extracts were fractionated by diethylaminohydroxypropyl Sephadex column chromatography into neutral sterols, free bile acids, glycine conjugated bile acids, taurine conjugated bile acids and sulphated steroids. In this study the method has been applied for faecal steroid analyses of healthy subjects undergoing chenodeoxycholic acid therapy. Chenodeoxycholic acid administration causes a considerable increase in the concentration of faecal lithocholic acid which is a known comutagenic bile acid. Furthermore it has been shown that conjugated bile acids can account for between 10 and 20% of the faecal bile acid pool. The method described is convenient and may be useful for epidemiological studies which require a large number of faecal samples to be analysed.
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PMID:Analysis of metabolic profiles of steroids in faeces of healthy subjects undergoing chenodeoxycholic acid treatment by liquid-gel chromatography and gas-liquid chromatography-mass spectrometry. 651 57

Chenodeoxycholic acid was converted to a new 5,14-epi-28,30-dinorquassinoid analog. Two isomeric A-ring diosphenol acetate derivatives of deoxycholic acid were synthesized. A 3-oxo-5 beta-steroid was transformed to a 4-acetoxy-3-oxo-delta 4-steroid by treatment with base and oxygen or to a 2-acetoxy-3-oxo-delta 2-steroid by reaction with cupric chloride in refluxing acetic acid followed by acetylation. Ketene extrusion is a characteristic mass spectral fragmentation of these diosphenol acetates.
Steroids 1980 Apr
PMID:Studies directed toward synthesis of quassinoids VII. Conversion of chenodeoxycholic acid to a delta-lactone quassinoid analog and generation of A-ring diosphenol acetate derivatives of deoxycholic acid. 689 59

We present the comparative studies of metabolism of chenodeoxycholic acid and ursodeoxycholic acid and their taurine conjugates in the liver and fecal culture from hamsters. When [24-14C]chenodeoxycholic acid and [11,12-3H]ursodeoxycholic acid were simultaneously instilled into the jujunal loop of bile fistula hamsters, both bile acids administered were recovered mainly as their conjugates with taurine and glycine in the fistula bile. The recovery of chenodeoxycholic acid was slightly but significantly higher than that of ursodeoxycholic acid. Chenodeoxycholic acid was more efficiently conjugated with glycine than ursodeoxycholic acid. The glycine/taurine ratio in the biliary chenodeoxycholic acid was 1.9, and that in ursodeoxycholic acid was 1.6. In addition, as much as 6.2% of ursodeoxycholic acid was excreted as the unconjugated form; on the other hand only 2.4% of unconjugated chenodeoxycholic acid was excreted. When [24-14C]chenodeoxycholyltaurine and [11,12-3H]ursodeoxycholyltaurine were simultaneously administered into the ileum loop of bile fistula hamsters, both bile salts were absorbed and secreted efficiently into the bile at the same rate. These results indicate that slightly lower recovery of ursodeoxycholic acid in the bile could be due to the less effective conjugation of ursodeoxycholic acid than chenodeoxycholic acid in the liver. Deconjugation by fecal culture from a hamster proceeded more rapidly in chenodeoxycholyltaurine than ursodeoxycholyltaurine. 7-Dehyroxylation to form lithocholic acid by fecal culture was also faster in chenodeoxycholic acid than ursodeoxycholic acid. The formation of 7-oxolithocholic acid from ursodeoxycholic acid was lesser than from chenodeoxycholic acid. In summary, bacterial deconjugation followed by 7-dehydroxylation to form lithocholic acid seems to be achieved more efficiently with chenodeoxycholic acid than ursodeoxycholic acid.
Steroids 1994 Jul
PMID:Comparative studies of metabolism of simultaneously administered chenodeoxycholic acid and ursodeoxycholic acid in hamsters. 797 27