Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:Q7LGC8 (HSD)
 3,196 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

In earlier studies, two distinct molecules, 20 alpha-HSD-I and 20 alpha-HSD-II, responsible for 20 alpha-HSD activity of pig adrenal cytosol were purified to homogeneity and characterized [S. Nakajin et al., J. Steroid Biochem. 33 (1989) 1181-1189]. We report here that the purified 20 alpha-HSD-I, which mainly catalyzes the reduction of 17 alpha-hydroxyprogesterone to 17 alpha,20 alpha-dihydroxy-4-pregnen-3-one, catalyzes 3 alpha-hydroxysteroid oxidoreductase activity for 5 alpha (or 5 beta)-androstanes (C19), 5 alpha (or 5 beta)-pregnanes (C21) in the presence of NADPH as the preferred cofactor. The purified enzyme has a preference for the 5 alpha (or 5 beta)-androstane substrates rather than 5 alpha (or 5 beta)-pregnane substrates, and the 5 beta-isomers rather than 5 alpha-isomers, respectively. Kinetic constants in the reduction for 5 alpha-androstanedione (Km; 3.3 microM, Vmax; 69.7 nmol/min/mg) and 5 beta-androstanedione (Km; 7.7 microM, Vmax; 135.7 nmol/min/mg) were demonstrated for comparison with those for 17 alpha-hydroxyprogesterone (Km; 26.2 microM, Vmax; 1.3 nmol/min/mg) which is a substrate for 20 alpha-HSD activity. Regarding oxidation, the apparent Km and Vmax values for 3 alpha-hydroxy-5 alpha-androstan-17-one were 1.7 microM and 43.2 nmol/min/mg, and 1.2 microM and 32.1 nmol/min/mg for 3 alpha-hydroxy-5 beta-androstan-17-one, respectively. 20 alpha-HSD activity in the reduction of 17 alpha-hydroxyprogesterone catalyzed by the purified enzyme was inhibited competitively by addition of 5 alpha-DHT with a Ki value of 2.0 microM. Furthermore, 17 alpha-hydroxyprogesterone inhibited competitively 3 alpha-HSD activity with a Ki value of 150 microM.
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PMID:3 alpha-hydroxysteroid dehydrogenase activity catalyzed by purified pig adrenal 20 alpha-hydroxysteroid dehydrogenase. 154 86

The role of membrane phospholipids in testicular androgen biosynthesis was investigated by monitoring the effects of phospholipase treatments on the activities of the steroid transforming enzymes. Androgen biosynthesis in untreated rat testicular microsomes was examined by monitoring the temporal appearance of pregnenolone metabolites and was found to proceed through the 4-ene route. When phospholipase A2 was included, the 5-ene steroids 17-hydroxypregnenolone and dehydroepiandrosterone (DHEA) were formed in greater quantities, and the production of 4-ene steroids was reduced indicating that the conversion of 5-ene steroids to the 4-ene configuration was inhibited by phospholipase A2 treatment. Phospholipase C, in addition to inhibiting this step, also inhibited the conversion of C21 steroids to C19 steroids. When the enzymatic steps were measured individually, phospholipase A2 inhibited 3 beta-hydroxysteroid dehydrogenase-isomerase (3 beta-HSD-Isomerase) with an ED50 of 73 mU/ml but had no effect on the activities of 17-hydroxylase, C-17, 20 lyase, or 17 beta-hydroxysteroid dehydrogenase (17 beta-HSD). However, though phospholipase C treatment inhibited 3 beta-HSD-Isomerase, it caused less inhibition (the ED50 value was 149 mU/ml). Furthermore, 17-hydroxylase and C-17, 20 lyase activities were also inhibited by phospholipase C treatment (ED50 values were 410 and 343 mU/ml, respectively), but no effect on 17 beta-HSD was observed. The differences in the apparent phospholipid requirements of the steroidogenic enzymes provides the possibility that the metabolic fate of pregnenolone may be regulated by changes in the phospholipid composition of the microenvironment.
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PMID:Phospholipases modulate the rat testicular androgen biosynthetic pathway in vitro. 284 83

To study the steroidal profiles in pregnancy associated with IUGR, maternal serum steroids which included pregnenolone (P5), 16 alpha OH-P5, progesterone (P4) and 16 alpha OH-P4 levels were measured by RIA at 30-41 weeks of gestation and the levels were compared with those obtained from normal pregnancies. Thirty-three pregnancies were diagnosed as IUGR after delivery and 36 pregnancies were used as controls. The levels of P4 and 16 alpha OH-P4 were significantly lower in IUGR pregnancies than those in normal pregnancies, while the levels of P5 and 16 alpha OH-P5 tended to be higher in IUGR than in normal subject. A significant difference was observed between the 16 alpha OH-P4/16 alpha OH-P5 ratio in IUGR and normal pregnancy. When the levels of 16 alpha OH-P5 and 16 alpha OH-P4 were taken into account, 14 of 17 cases of IUGR were discriminated from normal subjects. These results demonstrated for the first time the clinical importance of measuring 16 alpha OH-C21 steroids in case of IUGR. Low delta4/delta5 steroid ratios also indicate that the placental 3 beta HSD activity might be impaired in IUGR pregnancy.
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PMID:[C21-steroid profiles in pregnancy associated with intrauterine growth retardation]. 370 Nov 42

During storage at 4 degrees C, the 17 beta-hydroxysteroid dehydrogenase activity of human placental microsomes with estradiol-17 beta was more stable than that with testosterone. In order to evaluate the basis for this difference, kinetics with C18-, C19-, and C21- steroids as substrates and/or inhibitors was studied in conjunction with an analysis of the effects of detergents. Both 17 beta-hydroxysteroid dehydrogenase (17 beta-HSD) and 20 alpha-hydroxysteroid dehydrogenase (20 alpha-HSD) activities were detected. At pH 9.0, apparent Michaelis constants were 0.8, 1.3, and 2.3 microM for estradiol-17 beta, testosterone, and 20 alpha-dihydroprogesterone, respectively, 17 beta-HSD activity with testosterone was inhibited by estradiol-17 beta, 5 alpha-dihydrotestosterone, 5 beta-dihydrotestosterone, 20 alpha-dihydroprogesterone, and progesterone. In each case 90 to 100% inhibition was observed at 50 to 200 microM steroid. Activity with 20 alpha-dihydroprogesterone was similarly sensitive to inhibition by C19-steroids. By contrast, 25 to 45% of the activity with estradiol-17 beta was not inhibited by high concentrations of C19- or C21-steroids and differed from the 17 beta-HSD activity with testosterone and the major fraction of that with estradiol-17 beta by being insensitive to solubilization by detergent. These results are consistent with an association of two dehydrogenase activities with human placental microsomes. One recognizes C18-, C19-, and C21-steroids as substrates with comparable affinities. The second appears to be highly specific for estradiol-17 beta. The former activity may account for most if not all of the oxidation-reduction at C-17 of C19-steroids and at C-20 of C21-compounds at physiological concentrations by term placental tissue.
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PMID:17 beta-hydroxysteroid and 20 alpha-hydroxysteroid dehydrogenase activities of human placental microsomes: kinetic evidence for two enzymes differing in substrate specificity. 385 47

Various naturally occurring steroids, synthetic steroid derivatives and non-steroidal hormone agonists and antagonists were assayed as inhibitors of human placental 17 beta-HSD activities. Microsomal 17 beta-HSD was inhibited by C18-, C19- and C21-steroids. Soluble 17 beta-HSD was highly specific for C18-steroids. In contrast to the soluble activity, the microsomal enzyme also had a strong affinity for ethinylestradiol (KI = 0.3 microM) and danazol (KI = 0.6 microM); anabolic steroids and norethisterone were weaker inhibitors. Of the non-steroids tested only diethylstilbestrol and o-demethyl CI-680 were inhibitors and they showed a greater affinity for soluble 17 beta-HSD. KI-values for estradiol-17 beta, (0.8 microM), progesterone (27.0 microM) and 20 alpha-dihydroprogesterone (1.5 microM) were comparable to reported tissue levels of these compounds, consistent with a possible competition in vivo among naturally occurring C18-, C19-, and C21-steroids for the active site of microsomal 17 beta-HSD.
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PMID:Inhibition of 17 beta-hydroxysteroid dehydrogenase (17 beta-HSD) activities of human placenta by steroids and non-steroidal hormone agonists and antagonists. 659 79

20 beta-Hydroxy-5 alpha-pregnan-3-one (HPO) is a competitive inhibitor of reduction by 3 alpha/20 beta-hydroxysteroid dehydrogenase (3 alpha/20 beta-HSD; E.C.1.1.1.53) of 17 beta-hydroxy-5 alpha-androstan-3-one (DHT; 3 alpha-activity; Ki = 4.6x10(-5)M), and of 6 beta-acetoxyprogesterone (6 beta-AP; 20 beta-activity; Ki = 4.34x10(-5)M). HPO and DHT inhibit affinity alkylation of 3 alpha/20 beta-HSD by 6 beta-bromoacetoxyprogesterone (6 beta-BAP). The facts that 1) enzyme 3 alpha-activity and 20 beta-activity are both competitively inhibited by HPO with practically identical Ki-values, 2) 6 beta-BAP is solely a 20 beta-activity substrate for 3 alpha/20 beta-HSD, 3) one mole of 6 beta-BAP reacts with one mole of 3 alpha/20 beta-HSD to simultaneously inactivate 3 alpha- and 20 beta-activity, and 4) inactivation of 3 alpha/20 beta-HSD by 6 beta-BAP is inhibited by DHT (a C19-steroid) or HPO (a C21-steroid), support the view that the same active site of 3 alpha/20 beta-HSD possesses both 3 alpha- and 20 beta-activity. Bifunctional activity at the same active site is considered for other steroid-specific enzymes in female mammalian reproductive systems.
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PMID:Bifunctional enzyme activity at the same active site: competitive inhibition kinetics with 3 alpha/20 beta-hydroxysteroid dehydrogenase. 692 16

Three beta-hydroxysteroid dehydrogenase/delta 5-delta 4-isomerase (3 beta HSD) deficiency is a form of congenital adrenal hyperplasia characterized by severe impairment of steroid biosynthesis in the adrenals and gonads. To better understand the molecular basis of the phenotypic heterogeneity found in 3 beta HSD deficiency, we analyzed the structure of type I and II 3 beta HSD genes in a female patient with nonsalt-losing 3 beta HSD deficiency diagnosed at puberty. We directly sequenced DNA fragments generated by polymerase chain reaction amplification of the four exons, the exon-intron boundaries, and the 5'-flanking regions of each gene. No mutation was detected in the type I 3 beta HSD gene, which is the predominant species expressed in the placenta and peripheral tissues. We detected a novel missense mutation, Y254D, in one allele of the patient's type II 3 beta HSD gene, which is the almost exclusive type expressed in the adrenals and gonads. The influence of the Y254D mutation on enzymatic activity was assessed by analyzing the recombinant mutant enzyme generated by site-directed mutagenesis after its transient expression in COS-1 monkey kidney cells. Recombinant mutant type II 3 beta HSD enzyme carrying the Y254D substitution exhibits no detectable activity with C21 delta 5-steroid pregnenolone or C19 delta 5-steroid dehydroepiandrosterone used as substrate. The absence of restriction fragment length polymorphism by Southern blot analysis and the finding that all of the amplified DNA fragments possess the expected length suggest the absence of deletions, duplications, or re-arrangements in the other allele. A putative second mutation could be located farther than 1427 basepairs upstream of the initiation codon, thus potentially affecting the normal expression of this gene or within intronic regions, generating an alternative aberrant splicing site. These are possibilities that remain to be elucidated. The present findings, which describe the novel missense mutation Y254D in the human type II 3 beta HSD gene, provide useful information on the structure-activity relationships of the 3 beta HSD superfamily.
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PMID:Detection and functional characterization of the novel missense mutation Y254D in type II 3 beta-hydroxysteroid dehydrogenase (3 beta HSD) gene of a female patient with nonsalt-losing 3 beta HSD deficiency. 812 27

17 beta-Hydroxysteroid dehydrogenases (17 beta-HSDs) are enzymes involved in both the activation and inactivation of androgens and estrogens. 17 beta-HSD type 1 shows a high specificity for C18 steroids and is the major isozyme in the granulosa cells of the ovary. Its role is to convert the inactive C18 steroid estrone to the active estrogen estradiol, which in turn locally promotes maturation of the follicle. In contrast, attenuation of estradiol action in the glandular epithelium of the secretory endometrium is achieved by expression of the oxidative type 2 isozyme that inactivates estradiol to estrone. An interesting feature of 17 beta-HSD type 2 is that the enzyme also possesses 20 alpha-HSD activity, i.e., it catalyzes the 20 alpha-oxidation of the inactive C21 steroid 20 alpha-dihydroprogesterone to the active progestin progesterone. As the type 2 enzyme is also active on androgens, it may play a general role in the peripheral inactivation of androgens and estrogens, thus determining their steady-state levels in target tissues. The reductive 17 beta-HSD type 3 is predominantly expressed in the testis and converts the inactive C19 steroid androstenedione to the active androgen testosterone. The importance of the type 3 enzyme in male steroid hormone physiology is underscored by the genetic disease 17 beta-HSD deficiency. Mutations in the 17 beta-HSD3 gene impair the formation of testosterone in the fetal testis and give rise to genetic males with normal male Wolffian duct structures but female external genitalia. To date, 15 mutations have been identified in 18 subjects with the disease.
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PMID:Physiology and molecular genetics of 17 beta-hydroxysteroid dehydrogenases. 902 29

The aldo-keto reductase rabbit 20alpha-hydroxysteroid dehydrogenase (rb20alpha-HSD; AKR1C5) is less selective than other HSDs, since it exerts its activity both on androgens (C19 steroids) and progestins (C21 steroids). In order to identify the molecular determinants responsible for this reduced selectivity, binary (NADPH) and ternary (NADP(+)/testosterone) complex structures were solved to 1.32A and 2.08A resolution, respectively. Inspection of the cofactor-binding cavity led to the identification of a new interaction between side-chains of residues His222 and Lys270, which cover the central phosphate chain of the cofactor, reminiscent of the "safety-belt" found in other aldo-keto reductases. Testosterone is stabilized by a phenol/benzene tunnel composed of side-chains of numerous residues, among which Phe54, which forces the steroid to take up an orientation markedly contrasting with that found in HSD ternary complexes reported. Combining structural, site-directed mutagenesis, kinetic and fluorescence titration studies, we found that the selectivity of rb20alpha-HSD is mediated by (i) the relaxation of loop B (residues 223-230), partly controlled by the nature of residue 230, (ii) the nature of the residue found at position 54, and (iii) the residues found in the C-terminal tail of the protein especially the side-chain of the amino acid 306.
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PMID:Loop relaxation, a mechanism that explains the reduced specificity of rabbit 20alpha-hydroxysteroid dehydrogenase, a member of the aldo-keto reductase superfamily. 1512 23

Two isoforms of 11beta-HSD exist; 11beta-HSD1 is bi-directional (the reductase usually being predominant) and 11beta-HSD2 functions as a dehydrogenase, conferring kidney mineralocorticoid specificity. We have previously described endogenous substances in human urine, "glycyrrhetinic acid-like factors (GALFs)", which like licorice, inhibit the bi-directional 11beta-HSD1 enzyme as well as the dehydrogenase reaction of 11beta-HSD2. Many of the more potent GALFs are derived from two major families of adrenal steroids, corticosterone and cortisol. For example, 3alpha5alpha-tetrahydro-corticosterone, its derivative, 3alpha5alpha-tetrahydro-11beta-hydroxy-progesterone (produced by 21-deoxygenation of corticosterone in intestinal flora); 3alpha5alpha-tetrahydro-11beta-hydroxy-testosterone (produced by side chain cleavage of cortisol); are potent inhibitors of 11beta-HSD1 and 11beta-HSD2-dehydrogenase, with IC50's in range 0.26-3.0 microM, whereas their 11-keto-3alpha5alpha-tetrahydro-derivatives inhibit 11beta-HSD1 reductase, with IC50's in range 0.7-0.8 microM (their 3alpha5beta-derivatives being completely inactive). Inhibitors of 11beta-HSD2 increase local cortisol levels, permitting it to act as a mineralocorticoid in kidney. Inhibitors of 11beta-HSD1 dehydrogenase/11beta-HSD1 reductase serve to adjust the set point of local deactivation/reactivation of cortisol in vascular and other glucocorticoid target tissues, including adipose, vascular, adrenal tissue, and the eye. These adrenally derived 11-oxygenated C21- and C19 -steroidal substances may serve as 11beta-HSD1- or 11beta-HSD2-GALFs. We conclude that adrenally derived products are likely regulators of local cortisol bioactivity in humans.
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PMID:Endogenous inhibitors (GALFs) of 11beta-hydroxysteroid dehydrogenase isoforms 1 and 2: derivatives of adrenally produced corticosterone and cortisol. 1745 98


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