Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:1.1.1.3 (HSD)
 3,464 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

5 alpha-Dihydrotestosterone 3 alpha(beta)-hydroxysteroid dehydrogenase [3 alpha(beta)-HSDH] [EC 1.1.1.50/EC 1.1.1.51] which catalyses the conversion of 5 alpha-dihydrotestosterone (5 alpha-DHT) to both 5 alpha-androstane-3 alpha,17 beta-diol and 5 alpha-androstane-3 beta,17 beta-diol was purified to an apparent homogeneous state using cytosol of three human hyperplastic prostates by a 4-step purification procedure. After each purification step 3 alpha-HSDH activity was coincident with 3 beta-HSDH activity. On average, specific 3 alpha-HSDH activity was enriched 856-fold, specific 3 beta-HSDH activity 749-fold compared to human prostatic cytosol using anion exchange, hydrophobic interaction, gel filtration and affinity chromatography. Examination of the purified enzyme by polyacrylamide gel electrophoresis in the presence of sodium dodecyl sulfate (SDS) revealed a single protein band with silver staining. The molecular weight of the enzyme was estimated as 33 kDa by SDS-polyacrylamide gel electrophoresis and as 28 kDa by Sephacryl S-200 gel filtration indicating that the native 3 alpha(beta)-HSDH is a monomer. In the presence of the preferred co-factor, NADPH, the purified enzyme had a mean apparent Km for 5 alpha-DHT of 3.9 microM and a Vmax of 93.3 nmol (mg protein)-1 h-1 with regard to 3 alpha-HSDH activity, and a Km of 6.3 microM and a Vmax of 20.6 nmol (mg protein)-1 h-1 with regard to 3 beta-HSDH activity.
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PMID:Purification and properties of the 5 alpha-dihydrotestosterone 3 alpha(beta)-hydroxysteroid dehydrogenase from human prostatic cytosol. 160 44

3-alpha-Hydroxysteroid dehydrogenase (3 alpha-HSD) (EC 1.1.1.50) is an important multifunctional oxidoreductase capable of metabolizing steroid hormones, polycyclic aromatic hydrocarbons, and prostaglandins. 3 alpha-HSD is also required for bile acid synthesis and has been suggested to play an important role in net bile acid transport across the hepatocyte (Stolz, A., Takikawa, H., Ookhtens, M., and Kaplowitz, N. (1989) Annu. Rev. Physiol. 51, 166-177). In order to characterize molecular forms and begin to determine its regulation, we now report the nucleotide sequence, tissue distribution, and homology to other members of the oxidoreductase superfamily. Rat hepatic 3 alpha-HSD cDNA encodes for a 322-amino acid protein with a predicted molecular weight of 37,022 expressed in a 2.4-kilobase (kb) message size. Northern blot analysis of total RNA revealed equivalent steady-state levels in liver and intestine in male rats with lower levels of expression in the colon and minimal expression in stomach, lung, and testis. Female liver contained approximately 2-3-fold greater steady-state levels of mRNA as compared to the male liver with equivalent intestinal expression. Two hybridizing bands, 2.4 and 1.4 kb, were identified in total RNA from the ovary. 3 alpha-HSD exhibits 75% amino acid sequence homology with bovine lung prostaglandin F synthetase and 50% homology with human aldose reductases. Amino acid sequence analysis with short chain alcohol dehydrogenases identified a possible NADP(H) cofactor-binding site at the amino terminus. The significant homology of 3 alpha-HSD with both prostaglandin F synthetase and aldose reductases suggest a subdivision of monomeric, NADPH reductases within the larger oxidoreductases superfamily.
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PMID:Molecular structure of rat hepatic 3 alpha-hydroxysteroid dehydrogenase. A member of the oxidoreductase gene family. 171 56

17 Beta-Hydroxysteroid dehydrogenase (17 beta-HSD) is present in multiple forms in human breast tissue. One soluble form, with a molecular weight of approximately 35 kDa, was purified to near homogeneity from whole normal breast tissue. This form catalysed the oxidation of oestradiol and the reduction of oestrone, with NADP+ and NADPH as the preferred coenzymes. Three other soluble forms with higher molecular weights (in the range 50-80 kDa) were isolated. They catalysed the oxidation of oestradiol but not the reduction of oestrone, and all of them had properties very different from those of the low molecular weight enzyme. Activities of 17 beta-HSD were measured in particulate and soluble fractions from normal breast adipose and non-adipose tissues, and from breast tumours obtained from post-menopausal women, in the oxidative direction with NAD+ and NADP+ as coenzymes and in the reductive direction with NADH and NADPH as coenzymes. Particulate fractions from tumours had much higher oxidative and reductive activities than those from normal tissues. Soluble fractions from tumours had higher oxidative activities than those from the normal tissues but similar reductive activities. The major soluble form of 17 beta-HSD in adipose tissue was the 35 kDa enzyme which had both oxidative and reductive activities. In contrast, the majority of the soluble activity in non-adipose tissue was due to enzymes, with molecular weights in the range 50-80 kDa, which had oxidative activity only. The soluble fractions of tumours, like those of non-adipose tissue, contained enzymes with molecular weights in the range 50-80 kDa. In addition, they contained a 35 kDa enzyme with properties different from those of the enzyme with the same molecular weight present in adipose tissue.
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PMID:17 Beta-hydroxysteroid dehydrogenases in human breast tissues: purification and characterization of soluble enzymes and the distribution of particulate and soluble forms in adipose, non-adipose and tumour tissues. 189 41

Pig testicular 20 beta-hydroxysteroid dehydrogenase (20 beta-HSD) has also 3 alpha- and 3 beta-HSD (3 alpha/beta-HSD) activities. The purified 20 beta-HSD preparation from neonatal pig testes could catalyze the conversion of 5 alpha-dihydrotestosterone (5 alpha-DHT) in the presence of beta-NADPH to 5 alpha-androstane-3 alpha,17 beta-diol and 5 alpha-androstane-3 beta,17 beta-diol at the ratio of 4:3, and the specific 3 alpha/beta-HSD activity of 20 beta-HSD for 5 alpha-DHT was about 10 or 15 times larger than the 20 beta-HSD activities for 17 alpha-hydroxypregn-4-ene-3,20-dione (17 alpha-hydroxyprogesterone) or progesterone, respectively. The result indicates that the testicular 20 beta-HSD has high 3 alpha(axial, 3R)- and 3 beta(equatorial, 3S)-HSD activity. The testicular 20 beta-HSD could catalyze the reversible conversion of various 5 alpha- or 5 beta-dihydrosteroids which have a 3-carbonyl or 3-hydroxyl group with beta-NADP(H) as the preferred cofactor. The enzyme transferred the 4-proS hydrogen of NADPH to the 5 alpha-DHT for both 3 alpha- and 3 beta-hydroxylation and it was the same as the 20 beta-hydroxylation of 17 alpha-hydroxyprogesterone. Although the 3 alpha/beta-HSD activity has been known to be present in 3 alpha,20 beta-HSD of Streptomyces hydrogenans, the enzymological properties for 3 alpha/beta-HSD activity catalyzed by testicular 20 beta-HSD were different from the properties for 3 alpha/beta-HSD activity catalyzed by prokaryotic 3 alpha, 20 beta-HSD with respect to the specificity of the catalytic reaction and the cofactor requirement.
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PMID:20 beta-hydroxysteroid dehydrogenase of neonatal pig testis: 3 alpha/beta-hydroxysteroid dehydrogenase activities catalyzed by highly purified enzyme. 206 95

An analogue of androstenedione containing an ethano bridge between carbons 2 and 10 of the A ring of the steroid, 1, has been evaluated as an inhibitor and a possible substrate of human placental aromatase. This compound was found to be a competitive inhibitor versus androstenedione (Kis = 25 +/- 2 nM) of the aromatase activity. Analyses of the incubation mixtures of 1 with human placental microsomes and NADPH by GC-MS indicated the formation of a new compound having an increase in molecular weight of 2 mass units (300 m.u.) from that of the parent steroid (298 m.u.). Subsequent analyses of incubations of 1 with an isolated 17 beta-hydroxysteroid dehydrogenase (17 beta-HSD) from Pseudomonas testosteronii in the presence of NADPH resulted in the formation of a new compound having the same retention time and molecular mass as that found for the product from the placental microsome incubation. Consequently, steroid 1 is both an inhibitor of human placental aromatase and a substrate for 17 beta-HSD.
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PMID:Enzyme interactions of 2,10-ethanoandrostene-3,17-dione: aromatase and 17 beta-hydroxysteroid dehydrogenase. 216 Dec 28

The kinetic mechanisms of the reactions catalyzed by the two catalytic domains of aspartokinase-homoserine dehydrogenase I from Escherichia coli have been determined. Initial velocity, product inhibition, and dead-end inhibition studies of homoserine dehydrogenase are consistent with an ordered addition of NADPH and aspartate beta-semialdehyde followed by an ordered release of homoserine and NADP+. Aspartokinase I catalyzes the phosphorylation of a number of L-aspartic acid analogues and, moreover, can utilize MgdATP as a phosphoryl donor. Because of this broad substrate specificity, alternative substrate diagnostics was used to probe the kinetic mechanism of this enzyme. The kinetic patterns showed two sets of intersecting lines that are indicative of a random mechanism. Incorporation of these results with the data obtained from initial velocity, product inhibition, and dead-end inhibition studies at pH 8.0 are consistent with a random addition of L-aspartic acid and MgATP and an ordered release of MgADP and beta-aspartyl phosphate.
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PMID:The kinetic mechanisms of the bifunctional enzyme aspartokinase-homoserine dehydrogenase I from Escherichia coli. 224 Nov 77

We examined the in vitro shuttle metabolism between dihydrotestosterone (DHT) and 5 alpha-androstane-3 alpha, 17 beta-diol (3 alpha-diol) by 3 alpha-hydroxysteroid dehydrogenase (3 alpha-HSD, E.C. 1.1.1.50) in rat submandibular gland (SMG) and ventral prostate (VP). The protein having molecular weight of 30 kDa, which was revealed by Sephacryl S-200 column chromatography, had 3 alpha-HSD activity to produce 3 alpha-diol from DHT, and also showed an oxidative 3 alpha-HSD (3 alpha-HSDO) ability to produce DHT from 3 alpha-diol. From the kinetic studies, the apparent Km and Vmax values of 3 alpha-HSD for DHT and NADPH were 6.4 microM, 1429 pmol/mg protein per min and 33.0 microM, 1205 pmol in SMG, and 9.3 microM, 377 pmol and 34.0 microM, 192 pmol in VP. The corresponding values of 3 alpha-HSDO for 3 alpha-diol and NADP+ were 18.0 microM, 714 pmol and 14.0 microM, 445 pmol in SMG, and 14.0 microM, 417 pmol and 36.0 microM, 77 pmol in VP. The affinities for DHT and 3 alpha-diol and the cosubstrate requirements of this enzyme in SMG were similar to those in VP. However, higher capacities of 3 alpha-HSD and 3 alpha-HSDO in SMG than in VP were shown. This suggests that there may be more 3 alpha-HSD in the SMG.
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PMID:3 alpha-hydroxysteroid dehydrogenase in the cytosol of rat submandibular gland. 235 36

Two distinct molecules of 20 alpha-hydroxysteroid dehydrogenase (20 alpha-HSD) from pig adrenal cytosol have been purified to homogeneity and characterized. Purification was achieved by ammonium sulphate precipitation followed by DEAE-cellulose column chromatography. 20 alpha-HSD activity was separated into two fractions including 20 alpha-HSD-I and 20 alpha-HSD-II, and these were further purified by affinity chromatography on 2',5'ADP-Sepharose, reactive red 120-agarose and some conventional column chromatography. Both enzymes catalyzed the reduction of 17 alpha-hydroxyprogesterone to 17 alpha, 20 alpha-dihydroxy-4-pregnen-3-one in the presence of NADPH as the preferred cofactor. The apparent Km and Vmax values against 17 alpha-hydroxyprogesterone were 26.2 microM and 1.3 nmol/min/mg for 20 alpha-HSD-I, and 118 microM and 19.4 nmol/min/mg for 20 alpha-HSD-II, respectively. Furthermore, remarkable differences between 20 alpha-HSD-I and 20 alpha-HSD-II were demonstrated under the influence of ionic strength, heat treatment and divalent cations. The molecular weight was estimated to be 39 kDa for 20 alpha-HSD-I and 40 kDa for 20 alpha-HSD-II by sodium dodecyl sulphate-polyacrylamide gel electrophoresis, and 30 kDa for both enzymes by gel filtration on Sephadex G-100. These were glycoproteins. There was a large difference in their isoelectric points (8.5 for 20 alpha-HSD-I and 5.5 for 20 alpha-HSD-II). The peptide mapping of the two distinct enzymes was greatly different although there was a slight difference in the amino acid composition.
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PMID:Purification and characterization of pig adrenal 20 alpha-hydroxysteroid dehydrogenase. 261 63

The stereospecificity of hydrogen transfer between steroid (17-hydroxyprogesterone) and both natural cofactors by bovine testicular 20 alpha-hydroxysteroid dehydrogenase (20 alpha-HSD) has been determined. Cofactors used in these studies, [4-pro-S-3H]NADH ([4B-3H]NADH) and [4-pro-S-3H]NADPH ([4B-3H]NADPH) were generated with human placental estradiol 17 beta-dehydrogenase (EC 1.1.1.62) utilizing [17 alpha-3H]estradiol-17 beta and NAD+ or NADP+, respectively. The resulting [4B-3H]NADH and [4B-3H]NADPH were purified by ion-exchange chromatography and separately incubated with molar excess of 17-hydroxyprogesterone as substrate in the presence of 20 alpha-HSD. Following incubation, steroid reactant and product were extracted, separated by HPLC and quantitated as to mass and content of tritium. The oxidized and reduced cofactors were separated by ion-exchange chromatography and quantitated as to mass and tritium content. In all incubations, equimolar amounts of 17,20 alpha-dihydroxy-4-pregnen-3-one and oxidized cofactor were obtained. Further, all recovered radioactivity remained with cofactor and none was found in the steroid product. In additional experiments, both reduced cofactors were separately incubated with glutamate dehydrogenase, an enzyme known to transfer from the B-side of the nicotinamide ring. Here radioactivity was present only in the unreacted cofactor fractions and in the product, glutamic acid. The results indicate that bovine testicular 20 alpha-HSD catalyzes transfer of the 4A-hydrogen from the dihydronicotinamide moiety of the reduced cofactor. Finally, this work described modifications that represent considerable improvement in the purification and assay of bovine 20 alpha-HSD as originally described.
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PMID:Stereospecificity of hydrogen transfer by bovine testicular 20 alpha-hydroxysteroid dehydrogenase. 261 66

A fluorometric enzymatic method for the determination of ursodeoxycholic acid (UDCA) and its glycine and taurine conjugates in human serum has been developed. A simple and fast purification and preconcentration procedure using Sep Pak C18 cartridges was employed for the UDCA extraction from human serum. UDCA and its conjugates were determined in the extracted sample by an equilibrium method based on the enzymatic conversion of the 7 alpha-hydroxy group into 7-oxo group by beta-nicotinamide adenine dinucleotide phosphate in the presence of 7 beta-hydroxysteroid dehydrogenase (7 beta-HSD) and the produced NADPH was monitored fluorometrically. The 7 beta-HSD, which is not yet commercially available, was isolated from Clostridium absonum cultures (ATCC No. 27555) and purified by affinity chromatography. The method has a limit of detection of 0.8 microM in serum and the precision varied from 6.1 to 2.0% for low and high concentrations, respectively. The recovery of UDCA from serum samples was about 99% (range 85-105%). The method was successfully applied to UDCA determination in serum samples from patients treated with UDCA for primary biliary cirrhosis.
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PMID:Determination of ursodeoxycholic acid in serum by a new fluorometric enzymatic method using 7 beta-hydroxysteroid dehydrogenase from Clostridium absonum. 267 76


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