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)

Homogeneous 3 alpha-hydroxysteroid dehydrogenase (3 alpha-HSD; EC 1.1.1.50) of rat liver cytosol is a monomeric (Mr 34000) NAD(P)+ dependent oxidoreductase which displays 9-, 11- & 15-hydroxyprostaglandin dehydrogenase activity. The enzyme is potently inhibited by nonsteroidal anti-inflammatory drugs (NSAIDs), suggesting that 3 alpha-HSD may be a target enzyme for NSAIDs. A monospecific, polyclonal anti-sera raised against the purified enzyme was used to screen a lambda gt11 expression library and oligonucleotide probes complementary to the 5' and 3' ends of immunopositive clones were used to isolate a 2.1 kb full-length cDNA. Digestion of the full-length cDNA with Eco RI generated two fragments of 1.1 and 1.0 kb in length. Both fragments were subcloned into pGEM3 and partially sequenced. The 1.1 kb fragment contains the C-terminus of 3 alpha-HSD which was confirmed by an in-frame stop codon and comparison of the predicted amino acid sequence to peptide sequence obtained from two endo lys-C peptides of 3 alpha-HSD. The 1.0 kb fragment is 5' to the 1.1 kb fragment and is sufficient in length to contain the remainder of the entire open reading frame for 3 alpha-HSD. Dideoxysequencing reveals significant sequence homology with bovine lung prostaglandin PGF2 alpha synthase. These findings support the role 3 alpha-HSD in inflammation and suggest that hydroxysteroid dehydrogenases, hydroxyprostaglandin dehydrogenases and prostaglandin F2 alpha synthase may be members of a common gene family.
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PMID:Isolation and partial characterization of a full-length cDNA clone for 3 alpha-hydroxysteroid dehydrogenase: a potential target enzyme for nonsteroidal anti-inflammatory drugs. 179 46

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

Dicyclohexane derivatives, which inhibit the binding of testosterone and dihydrotestosterone (DHT) to the androgen-binding protein (ABP) of rat epididymis without interfering with their binding to the androgen receptor, show a similar selectivity in their effects on androgen metabolism. Their ability to inhibit the aromatization of testosterone has been reported previously. This paper demonstrates that they are potent inhibitors of 3 alpha(beta)-hydroxysteroid:NAD(P)+ oxidoreductase activity (3-HSD) in the particulate fraction from rat prostate gland; the values of Ki for their inhibition of this enzyme are similar to that of the Km for DHT as substrate. The dicyclohexane derivatives are markedly less effective against the cytosolic NADPH-dependent 3-HSD, and they do not appear to inhibit testosterone 5 alpha-reductase activity. These characteristics are likely to complicate the proposed use of the dicyclohexane derivatives as probes for the role of ABP in vivo. However, they may be of interest in the study of structure-activity relationships in androgen-metabolizing enzymes, particularly in the examination of the different forms of 3-HSD.
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PMID:Effects of dicyclohexane derivatives on androgen metabolism in the rat prostate. 386 28

The threonine-sensitive homoserine dehydrogenase (L-homoserine: NAD(P)+ oxido-reductase), isolated from seedlings of Zea mays L., is characterized by variable kinetic and regulatory properties. Previous analysis of this enzyme suggested that it is capable of ligand-mediated interconversions among four kinetically distinct states (S. Krishnaswamy and J. K. Bryan (1983) Arch. Biochem. Biophys. 222, 449-463). These forms of the enzyme have been identified and found to differ in oligomeric configuration and conformation. In the presence of KCl and threonine a rapid equilibrium among three species of the enzyme (B, T, and K) is established. Each of these species can undergo a unique slow transition to a steady-state form under assay conditions. Results obtained from gel-filtration chromatography and sucrose density centrifugation indicate that the B and steady-state forms are tetramers and the T and K states are dimers. Evidence is presented to indicate that the rapid conversion from one dimeric species to the other can only occur via formation of the tetrameric B state. Chromatography under reacting-enzyme conditions provides direct support for the slow formation of a common steady-state species from any one of the other forms of the enzyme. The rate of transition is influenced by threonine, homoserine, NAD+, and, for transitions involving association reactions, by enzyme concentration. Small, reproducible differences in the apparent size of the T and K forms, and the B and steady-state species, are attributed to changes in conformation. This conclusion is supported by differential susceptibility of the enzymic states to proteolytic inactivation, by different rates of inactivation by dithio-bis-nitrobenzoate, and by alterations in their thermal stability. In addition, the B, T, and K states of the enzyme exhibit unique intrinsic fluorescence spectra. Spectral changes are shown to closely parallel changes in kinetic and hysteretic properties of the enzyme. The results of diverse methods of analysis are internally consistent, and provide considerable support for the conclusion that this pleiotropic regulatory enzyme can exist in any of several physically distinct states.
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PMID:Characterization of ligand-induced states of maize homoserine dehydrogenase. 635 97

Such details of the primary structure were sought that are common in all dehydrogenases of known amino acid sequence. Twenty-six sequences of eight kinds of dehydrogenase (D-glyceraldehyde-3-phosphate dehydrogenase, alcohol dehydrogenase, lactate dehydrogenase, glutamate dehydrogenase, glycerol-3-phosphate dehydrogenase, ribitol dehydrogenase, L-hydroxyacyl-CoA dehydrogenase and homoserine dehydrogenase) have been compared by the aid of the artificial intelligence language Prolog, the amino acids being classified into groups according to their chemical properties, and alpha-helix or beta-sheet-forming abilities. We found tetrapeptides that occurred in all dehydrogenases examined. By using these tetrapeptides as markers a population of 84 partial sequences has been described. The partial sequences constituting this population are peptides comprising 35 residues. It has been shown statistically that these peptides form a homogeneous sample as regards the frequency of occurrence of amino acid groups. This statistically homogeneous partial sequences can be regarded as homologous and it is assumed that their presence is characteristic of dehydrogenases.
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PMID:Homologous partial sequences in dehydrogenases. 667 98

3 beta-Hydroxy-5-ene-steroid dehydrogenase/delta 5-delta 4-isomerase (3 beta HSD) is a NAD(+)-dependent membrane-bound enzyme that catalyzes the oxidation of delta 5-3 beta-hydroxysteroids to delta 4-3-keto structures during adrenal, gonadal, and placental steroidogenesis. Enzyme activity is located in both microsomes and mitochondria. In these experiments we examined the membrane topologies of 3 beta HSD in rat and calf adrenal microsomes and mitochondria by comparing access to the active sites of coenzyme and the inhibitor mersalyl, a nonpenetrant organic mercurial anion. Microsomal activity required exogenous NAD+ and was inhibited by mersalyl, indicating that the active site faced the medium in vitro and the cytoplasm in vivo. In contrast, mitochondrial 3 beta HSD used matrix space NAD+, was inhibited by reduction of intramitochondrial NAD(P)+, and was insensitive to mersalyl. Mitochondrial activity was decreased by exogenous NADH (apparent Ki, 2.8 microM) and increased by added NAD+ (apparent Ka, 2.4 microM). However, mersalyl blocked the effects of exogenous NADH and NAD+ and returned the activity to that observed before coenzyme addition. The membrane-sidedness of the NAD+ activation was examined further in submitochondrial particles prepared by sonication of pyridine nucleotide-depleted calf adrenal cortex mitochondria. Particles were prepared in the absence or presence of 10 mM NAD+ and contained none or 2.9-7.3 nmol NAD+/mg protein, respectively. Both groups of submitochondrial particles required exogenous NAD+ for 3 beta HSD activity, indicating that the active site faced the medium (the particles were everted), and the contained NAD+ was inside the particles. However, 3 beta HSD activity was increased 12-140% in particles that contained NAD+. The results suggest that mitochondrial 3 beta HSD is an integral inner membrane protein, that the active site faces the matrix space and is influenced by coenzyme availability, and that a regulatory site(s) faces the intermembrane space. Binding of NAD+ or NADH to this external site increases or decreases, respectively, the rate of catalysis at the active site. Mitochondrial 3 beta HSD activity may be enhanced by oxidation of intermembrane space NADH via an active rotenone- and antimycin-a-insensitive NADH oxidase.
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PMID:Topology of 3 beta-hydroxy-5-ene-steroid dehydrogenase/delta 5-delta 4-isomerase in adrenal cortex mitochondria and microsomes. 829 70