EC:1.1.1.3 - FACTA Search

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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)

Delta5-3beta HSDH activity has been assayed either by spectrophotometric method or by use of radioactive substrates. The enzymatic activity is equally distributed between mitochondrial and microsomal fractions verified by electronic microscopy. The specific activity is comparable in both fractions, as well as the optimal pH and the Km for NAD and for the substrates. The delta5-3beta Hut optimal pH, specific activity and sensitivity to the inhibitory action of various steroids are different when C19 and C21 steroids are used as substrates. Estrogens and cyclic AMP have also an inhibitory action on the oxidation of C21 steroids. Treatment of microsomal or mitochondrial membranes with phospholipase A releases fatty acids (mainly arachidonic) and decreases the enzymatic activity. "Adsorbtion" of the fatty acids on bovine serum albumin partially reactivates the delta5-3beta HSDH.
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PMID:Human placental delta5-3beta hydroxysteroid dehydrogenase activity (delta5-3beta HSDH): intracellular distribution, kinetic properties, retroinhibition and influence of membrane delipidation. 0 79

Specific activity of 17 beta-hydroxysteroid dehydrogenase (17 beta-HSD) was measured in 48 tissue specimens of human female breast cancer and, in addition, 48 nonmalignant tissue specimens obtained in each case from the same cancer-bearing breast. In all cases the nonmalignant tissue showed greater conversion of estradiol-17 beta into estrone than the neoplastic tissues. In normal human breast tissue of premenopausal women specific enzyme activity depended on the phase of the MENSTRUAL CYCLE: the highest values of 17 beta-HSD activity were found in the early secretory phase. To determine the intracellular distribution of the 17 beta-HSD, purified microsomes, mitochondria, peroxysomes, lysosomes, nuclei and cytosol fractions were prepared. The purity of each fraction was monitored by marker enzymes. It was found that the 17 beta-HSD was mainly located in mitochondria and microsomes. Furthermore it could be demonstrated that the microsomal enzyme was bound tightly to the membranes of the endoplasmic reticulum, while the mitochondrial 17 beta-HSD was mainly associated with the outer membranes of the organelle. Kinetic parameters (Km-values, coenzyme requirements and maximal velocities) of a cytoplasmic, nuclear, mitochondrial and microsomal 17 beta-HSD of normal and neoplastic human mammary tissue were compared. Maximal velocity was highest in enzyme preparations of normal mammary tissue obtained from premenopausal women in the early secretory phase. Km-values wrere nearly identical in normal and neoplastic mammary tissue preparations (approx. 1 X 10(-6) M). NAD was more efficient than NADP as a cofactor. For the conversion of estradiol to estrone the optimum temperature was approximately 40 degrees C and the optimum pH 9.5. For the reduction of estrone the optimum pH was 6.5. Sulphydryl groups were shown to be essential for catalysis.
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PMID:Comparison of the in vitro conversion of estradiol-17 beta to estrone of normal and neoplastic human breast tissue. 1 41

Detailed enzyme kinetic parameters of the reactions catalyzed by the two 17beta-hydroxysteroid dehydrogenases (17beta-HSD), which were solubilized from the microsomes of human placenta by treatment with phospholipase A, followed by enrichment and separation were determined. Both enzymes are strictly substrate specific. The most active substrate of one of the 17beta-HSD (fraction A) is estradiol-17beta, the other 17beta-HSD (fraction B) is sensitive to testosterone. Both NAD and NADP can serve as hydrogen transferring coenzymes, the latter giving about one-third of the initial rate of the former. With respect to the influence of temperature, different buffers and pH values, Michaelis constants (Km) with estradiol-17beta and testosterone as substrates, the solubilized and separated microsomal 17beta-HSD behave like those isolated from the cytoplasmic fraction. The two 17beta-HSD, after solubilization from the microsomal fraction of human placenta, enrichment and separation from each other, show only a little activity for the transfer of hydrogen between C17 of estradiol-17beta and C17 of androstenedione. On the other hand, intact microsomes and an integrated system prepared by recombination of the 17beta-enzymes by preincubation in phosphate buffer are able to catalyse very actively the transfer of hydrogen between estradiol-17beta and androstenedione. The effect of temperature and time on the recombination of the two enriched and separated microsomal enzyme activities and the determination of the pH-optimum of the hydrogen transfer reaction are described. Finally it is proposed that the hydrogen transfer between steroid hormones represents an aspect of the true reaction mechanism of steroid hormones: Steroid hormones function as hydrogen transferring coenzymes by forming part of a chain of hydrogen carriers.
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PMID:[Microsome-associated 17beta-hydroxysteroid dehydrogenases of human placenta, ii kinetic studies and characterization of the solubilized estradiol-and testosterone-"sensitive" 17beta-HSD-Activities]. 23 76

Microsomal 17 beta-hydroxysteroid dehydrogenase obtained from the human secretory endometrium (17 beta-HSD) was solubilized with triton X-100. A 4-fold purification was achieved by ammonium sulphate precipitation and isoelectric focusing. In the presence of glycerol the partially purified enzyme was stable at 4 degrees C for at least 48 h. Using crude microsomes, the conversion of oestradiol to oestrone was linear with time and with the concentration of protein. The optimum temperature was approximately 40 degrees C and the optimum pH 9.4. For the reduction of oestrone the optimum pH was 6.5. With NAD, oestradiol was oxidized approximately three times more rapidly than with NADP. Km-values for oestradiol were nearly the same in endometrial carcinoma and in proliferative and secretory endometrium (i.e. approximately 3 X 10(-6) M). The maximal velocity was highest in secretory endometrium. Testosterone and androstenedione could also serve as substrates but they were interconverted more slowly than oestradiol and oestrone. Sulphhydryl groups were shown to be essential for catalysis.
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PMID:Studies on 17 beta-hydroxysteroid dehydrogenase in human endometrium and endometrial carcinoma. III. Partial purification and characterization of the microsomal enzyme. 24 Nov 86

The growth of Clostridium group P strain C48-50 [an anaerobe that contains 12alpha-hydroxysteroid dehydrogenase (12alpha-HSDH) in the absence of other dehydrogenases active upon bile salts] is greatly enhanced by the addition of 2.0% d-fructose or d-glucose to the growth medium. Other sugars were less effective. The production of NADP-dependent 12alpha-HSDH paralleled the growth of the organism which was optimal at 72 hr. Growth (and enzyme production) were suppressed by the addition of bile salt to the medium; the order of suppression was deoxycholate > chenodeoxycholate >> cholate; 1 mM of either of the dihydroxy-bile salts inhibited 96% of the growth and 100% of the enzyme production. Kinetic studies on cell-free preparations of 12alpha-HSDH revealed a pH optimum of 7.8 with greater linearity of NADP evolution with time occurring only at more alkaline pH values (9-10). Lineweaver-Burke plots revealed Michaelis constant (K(m)) values in the range of 3-5 x 10(-4) M for deoxycholate and its glycine and taurine conjugates, while higher values were found for cholate and conjugates (K(m) value for taurocholate was 3 x 10(-3) M). Although there was no activity with NAD, 12alpha-HSDH was shown to bind onto both NAD- and NADP-Sepharose columns, with stronger binding on the latter. The enzyme was purified 20-fold by NAD-Sepharose chromatography. The molecular weight was estimated at 100,000 by Sephadex G-200 and a series of molecular weight markers. Substrate specificity studies showed that a variety of bile salts containing 12alpha-OH groups reacted; notably, the 3alpha-sulfates of cholate and deoxycholate were nonsubstrates.-Macdonald, I. A., J. F. Jellett and D. E. Mahony. 12alpha-Hydroxysteroid dehydrogenase from Clostridium Group P strain C48-50 #29733: partial purification and characterization.
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PMID:12alpha-Hydroxysteroid dehydrogenase from Clostridium group P strain C48-50 ATCC No. 29733: partial purification and characterization. 43 63

A morphological and histochemical study has been made of the primordial and early growing oocytes in the ovaries of crow (Corvus splendens) and common myna (Acridotheres tristis). The primordial oocytes in the myna ovary are loosely arranged in groups or nests, whereas in crow they form compact nests surrounded by highly vascularized connective tissue bands or lie in layers beneath the surface epithelium. The primordial oocytes in both the species are surrounded by flat granulosa cells whose number, shape, and cytochemical properties change with the initiation of growth. The oocyte nucleus shows a single basophilic nucleolus and thick diplotene chromosomes. With the initiation of growth, the number of nucleoli increases; simultaneously the chromosomes attain lampbrush configuration. Crescent-shaped Balbiani's vitelline body consists of ribonucleoproteins, lipoproteins, and phospholipids. The amount of these substances increases with the oocyte growth. The nature of proteins and lipids in the ooplasm and follicular epithelium also changes with the oocyte growth. Some randomly distributed protein bodies are also present in the ooplasm of primordial follicles. They disappear with the initiation of oocyte growth. The enzyme activities of acid phosphatase, NADP-diaphorase and NAD-diaphorase, also increase in the Balbiani's vitelline body with the oocyte growth. Alkaline phosphatase and delta 5-3 beta-HSDH activities are not seen. The possible functional significance of these morphological and histochemical changes has been discussed in relation to the initiation of growth in quiescent oocytes.
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PMID:Morphological and histochemical observations on the primordial and early growing oocytes of crow (Corvus splendens) and myna (Acridotheres tristis). 47 89

By recording the incubation time needed for initial appearance of the red and blue formazans the reliability of the histochemical method for 3beta-HSD was investigated: 1. Prefixation of small tissue blocks with 1% W/V methanol-free formaldehyde (pH=7.2) for up to 30 min preserved morphological integrity as well as maximal enzyme activity. Moreover, the substantivity of formazans and lipids was enhanced. 2. Commercial available glutaraldehyde (pH=7.2) induced SH groups in the tissue (even at 0.1% W/V for 5 min) thereby enhancing the Nothing dehydrogenase reaction. 3. Preextraction of lipids with acetone for 20 min at -30 degree C caused no loss of activity and was an inevitable step if a reliable activity pattern had to be achieved (e.g. in interstitial cells). 4. No diffusion of enzyme was noticed within 30 min of preincubation in phosphate buffer (0.2 M, pH=7.2) at 20 degree C. 5. By using the double-section incubation method no diffusion of 3beta-HSD or rediffusion of NADH or PMSH could be noticed withn 45 min of incubation, provided that low concentrations of NAD (0.1 mg/ml) and PMS (0.003 mg/ml) were balanced against the concentration of Nitro BT (0.5 mg/ml) or Tetranitro BT (1.0mg/ml). 6. The utlity of different inhibitors of alkaline phosphomonoesterase was tested and discussed. 7. By inhibiting alkaline phosphomonoesterase with 0.1 mM of L-p-bromotetramisole or 16 mM of beta-glycerophosphate, 3beta-HSD was shown to be exclusively NAD-linked. 8. Levamisole was a potent inhibitor of NADH-tetrazolium reductase as well as 3 beta-HSD, but not of NADPH-tetrazolium reductase. 9. 3beta-HSD possess SH groups requisite for the activity as this enzyme was totally inhibited by N-ethyl maleimide. 10. Whether alcohol dehydrogenases may use steroids as substrate is discussed; It is concluded that preextraction (by acetone) and/or the use of an inhibitor of alcohol dehydrogenase (1,10-phenanthroline) has to be performed. 11. Propylene glycol was a poor solvent for all substrates and was itself an excellent substrate for alcohol dehydrogenase. 12. Specifications for the ideal solvent of steroid substrates in the histochemical practice are proposed. DMSO showed to be promising as a steroid solvent (e.g. extraction of formazans was considerably lower as compared to DMF). 13. The utilization of substrates was descending in the following order (using 1 mM and 0.1 ml/ml of either DMF or DMSO): epiandrosterone, methandriol, dehydroepiandrosterone and pregnenolone. 14. If DMSO was used as solvent for pregnenolone (but not for the other substrates tested) an evident increase of activity was recorded as compared to DMF.
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PMID:Histochemistry of 3beta-hydroxysteroid dehydrogenase in rat ovary. I. Amethodological study. 55 64

Four isozymes of 3 alpha-hydroxysteroid dehydrogenase (3alpha-HSD) appeared in rat livers to be classified into three categories concerned with the requirement of coenzyme. Two isozymes in the first group had affinity for both NAD and NADP. One of the other isozymes classified in the second was linked with NADP to show specificity for 5beta-androstan-3alpha-ol-17-one (etiocholanolone) as the steroid substrate. An isozyme belonging to the third required only NAD as cofactor. This has the same migration rate of a lactate-dehydrogenase isozyme. In the histochemical observation, the maximal activity of the enzyme was demonstrated with 5-alpha androstan-3alpha-ol-17 one (androsterone) but not with etiocholanolone as a substrate. On the other hand, all 3 alpha-HSD isozymes revealed by electrophoresis showed a higher affinity for etiocholanolone than androsterone. It is worthwhile to note that the zymogram of 3alpha-HSD in the cold acetone-treated section was essentially the same as the zymogram in the intact liver. All isozymes in the section were highest in activity when etiocholanolone was used as a substrate. These findings indicate that in the cold acetone-treated section the enzyme still has affinity for etiocholanolone to resist the histochemical procedure employed.
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PMID:Electrophoretic and histochemical studies on hepatic 3 alpha-hydroxysteroid dehydrogenase in the rat. 71 Mar 68

Complementary DNA clones encoding 3 alpha-hydroxysteroid dehydrogenase (3 alpha HSD) were isolated from a rat liver cDNA lambda gt11 expression library using monoclonal antibodies as probes. The sizes of the cDNA inserts ranged from 1.3-2.3 kilobases. Sequence analysis indicated that variation in the DNA size was due to heterogeneity in the length of 3' noncoding sequences. A full-length cDNA clone of 1286 basepairs contained an open reading frame encoding a protein of 322 amino acids with an estimated mol wt of 37 kDa. When expressed in E. coli, the encoded protein migrated to the same position on sodium dodecyl sulfate-polyacrylamide gels as the enzyme purified from rat liver cytosols. The protein expressed in bacteria was highly active in androsterone reduction in the presence of NAD as cofactor, and this activity was inhibited by indomethacin, a potent inhibitor of 3 alpha HSD. The predicted amino acid sequence of 3 alpha HSD was related to sequences of several other enzymes, including bovine prostaglandin F synthase, human chlordecone reductase, human aldose reductase, human aldehyde reductase, and frog lens epsilon-crystalline, suggesting that these proteins belong to the same gene family.
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PMID:Molecular cloning and expression of rat liver 3 alpha-hydroxysteroid dehydrogenase. 192 97

In the steroidogenic pathways present in the gonads and adrenal cortex, 3 beta-hydroxysteroid dehydrogenase isomerase (3 beta HSD) is a key enzyme which controls the formation of delta 4-3-ketosteroids from delta 5-3 beta-hydroxysteroids. Herein, we used an antibody against human placental 3 beta HSD and a rat testicular 3 beta HSD cDNA probe to study the expression of rat liver 3 beta HSD mRNA and protein. Rat liver microsomal 3 beta HSD activity has been previously reported to exhibit a significant sex difference, with much higher activity in the male. We have shown an age-dependent increase in levels of immunoreactive 3 beta HSD through the time of maturation of the male rat. The immunoreactive protein, of similar molecular size to the human placental and rat testicular 3 beta HSD, was localized to the microsomal fraction of liver and was concentrated in pericentral locations. Immunoreactive protein was not detected in liver of immature (before 25 days of age) rats of either sex or in adult female liver. Northern blot analysis of liver and testicular RNA with a rat testicular 3 beta HSD cDNA probe revealed the presence of a 1.6-kilobase mRNA species in addition to the major 2.1-kilobase mRNA species in adult male liver, neither of which was detected in immature or adult female liver RNA. Hypophysectomy of female rats or treatment with testosterone implants caused induction of liver 3 beta HSD protein, while continuous infusion of GH to male rats decreased the level of 3 beta HSD protein. Similarly, the levels of the mRNA species were decreased after GH treatment. Using [3 alpha-3H]dehydroepiandrosterone as substrate for 3 beta HSD activity, we determined the apparent Km for liver microsomal NAD(+)-dependent 3 beta HSD activity to be 20 microM in both adult male and female liver and was much greater than the Km of rat Leydig tumor 3 beta HSD activity (0.2 microM). Liver 3 beta HSD activity was inhibited by trilostane, a proven inhibitor of gonadal and adrenal 3 beta HSD activity. A rat liver 3 beta HSD cDNA was isolated from a male liver cDNA library that was closely related to the type II 3 beta HSD form of rat ovary but different from type III liver 3 beta HSD. The enzyme obtained upon expression of this cDNA had properties characteristic of male-specific NAD(+)-dependent liver microsomal 3 beta HSD (i.e. high apparent Km for dehydroepiandrosterone) and distinct from those of the high affinity gonadal type I 3 beta HSD.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Regulation of expression of male-specific rat liver microsomal 3 beta-hydroxysteroid dehydrogenase. 194 5

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