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)

Both activities of the aspartokinase--homoserine I (AK-HSD) of Escherichia coli are inhibited by threonine. Careful threonine binding studies have now been done which have allowed us to distinguish the various effects of threonine on the enzyme. The ultrafiltration technique of H. Paulus ((1969) Anal. Biochem. 32, 101) for measuring ligand binding was shown to be comparable with equilibrium dialysis techniques. Reduction in error by utilization of this procedure enabled us to obtain evidence for two different sets of threonine sites by direct binding studies. The binding data were mathematically consistent with two independent classes of threonine sites, each of which contained four sites per tetramer and had a Hill coefficient of about 2.3--2.5. KD for the second set of sites was five- to tenfold greater than the high affinity sites, depending upon conditions. The data now suggest that the sequential model for site--site interactions adequately describes the cooperativity of threonine binding to the high affinity set of sites.
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PMID:Threonine inhibition of the aspartokinase--homoserine dehydrogenase I of Escherichia coli. Threonine binding studies. 2 50

Homogeneous 3 alpha-hydroxysteroid dehydrogenase (3 alpha-HSD, EC 1.1.1.50) of rat liver cytosol is potently inhibited at its active site by nonsteroidal anti-inflammatory drugs (NSAIDs). Using 3 alpha-bromoacetoxy-5 alpha-androstan-17-one (BrAnd, a substrate analog) and 11 alpha-bromoacetoxyprogesterone (Br11P, a glucocorticoid analog) as affinity-labeling agents, kinetic evidence was obtained that these agents alkylate this site. Inactivation of 3 alpha-HSD with either [14C]BrAnd or [14C] Br11P led to the incorporation of 1 mol of affinity-labeling agent per enzyme monomer. Complete acid hydrolysis of 3 alpha-HSD radiolabeled with either agent followed by amino acid analysis led to the identification of [14C]carboxymethylcysteine indicating that [14C]BrAnd and [14C]Br11P covalently tag discrete reactive cysteine(s) at the enzyme active site. Trypsin digestion of [14C]BrAnd-inactivated 3 alpha-HSD followed by peptide mapping led to the purification of a single radiolabeled peptide (3A1) which gave the following sequence: H2N-Ser-Ile-Gly-Val-Ser-Asn-Phe-Asn-X-Arg-CO2H. Identical experiments on [14C] Br11P-inactivated 3 alpha-HSD led to the purification of three radiolabeled peptides (11P1-11P3). The major radiolabeled peptide (11P1) had an identical sequence to 3A1 which was tagged with [14C]BrAnd. The minor radiolabeled peptides had the following sequences: H2N-Ser-Lys-Asp-Ile-Ile-Leu-Val-Ser-Tyr-X-Thr-Leu-Gly-Ser-Ser-Arg-CO2H (11P2) and H2N-Ser-Pro-Val-Leu-Leu-Asp-Asp-Pro-Val-Leu-X-Ala-Ile-Ala-Lys-CO2H (11P3). In each peptide group X was identified as carboxymethylcysteine. Alignment of the peptide sequences with the primary structure of 3 alpha-HSD, deduced from its cDNA clone, assigned peptide 11P1 to residues 162-171, peptide 11P2 to residues 208-223, and peptide 11P3 to residues 232-246 of the amino acid sequence. The reactive cysteines correspond to Cys170, Cys217, and Cys242. We propose that Cys170 labeled by BrAnd may lie within the catalytic pocket of the enzyme. By contrast the 11 alpha-bromoacetoxy group in Br11P labeled several reactive cysteines which may be involved in the binding of glucocorticoids and NSAIDs.
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PMID:Affinity labeling of 3 alpha-hydroxysteroid dehydrogenase with 3 alpha-bromoacetoxyandrosterone and 11 alpha-bromoacetoxyprogesterone. Isolation and sequence of active site peptides containing reactive cysteines; sequence confirmation using nucleotide sequence from a cDNA clone. 202 97

Evidence is presented for the existence of a second homoserine dehydrogenase in Salmonella typhimurium. The formation, but not the activity, of this enzyme is controlled by methionine. Two distinct homoserine dehydrogenases were separated from wild-type cells by diethylaminoethyl (cellulose) column chromatography. Sucrose gradient ultracentrifugation gave molecular weight estimates for the threonine-regulated enzyme (HSD I) of 220,000 to 240,000 and for the methionine controlled enzyme (HSD II) of 130,000 to 140,000. Approximately 12% of the total HSD activity in wild-type cells was accounted for by HSD II. A threonine-requiring strain of S. typhimurium was found to lack HSD I but not HSD II. Under certain conditions, this mutant grew rapidly in minimal medium. Rapid growth in minimal medium was correlated with the appearance of an enzyme with similar characteristics to HSD I. The possible origins of this HSD I-like enzyme are presented.
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PMID:Evidence for a methionine-controlled homoserine dehydrogenase in Salmonella typhimurium. 488 11

17 beta-Hydroxysteroid dehydrogenase (17 beta-HSD) IV is coded by 2.9 kb mRNA translated to an 80 kDa protein which is N-terminally cleaved to a 32 kDa enzyme. The 17 beta-HSD IV is dedicated to steroid inactivation and reveals only 25% amino acid similarity with 17 beta-HSD I-III enzymes. Despite five Asn-Xaa-Ser/Thr (Xaa = unspecified amino acid) sites in the 80 kDa protein the enzyme is not glycosylated. The porcine 32 kDa 17 beta-HSD IV forms dimers of 75 kDa. The highest 17 beta-HSD IV mRNA expression and specific activities are found in liver and kidney followed by ovary and testes. In porcine gonads the immunofluorescence assigned the 17 beta-HSD IV to granulosa cells and to Leydig and Sertoli cells. As shown by the treatment with phorbol-myristate-acetate in vitamin D-differentiated monocytic leukemia THP1 cells, steroid synthesis and inactivation are regulated differentially by the protein kinase C pathway: an increase in aromatase is accompanied by a decrease in 17 beta-HSD IV mRNA levels.
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PMID:Characterization of 17 beta-hydroxysteroid dehydrogenase IV. 894 81

Mutagenetic replacements of conserved residues within the active site of the short-chain dehydrogenase/reductase (SDR) superfamily were studied using prokaryotic 3 beta/17 beta-hydroxysteroid dehydrogenase (3 beta/17 beta-HSD) from Comamonas testosteroni as a model system. The results provide novel data to establish Ser 138 as a member of a catalytically important "triad" of residues also involving Tyr151 and Lys155. A Ser-->Ala exchange at position 138 results in an almost complete (> 99.9%) loss of enzymatic activity, which is not observed with a Ser-->Thr replacement. This indicates that an essential factor for catalysis is the ability of side chain 138 to form hydrogen bond interactions. Mutations in the NAD(H) binding region, in strands beta A, beta D, and adjacent turns, reveal two additional residues, Thr12 and Asn87, which are important for correct binding of the coenzyme and with a differential effect on the reactions catalyzed. Thus, mutation of Thr12 to Ala results in a complete loss of the 3 beta-dehydrogenase activity, whereas the 3-oxoreductase activity remains unchanged. On the other hand, a T12S substitution yields a protein with unaltered catalytic constants for both reactions, revealing that a specific hydrogen bond is critical for the dehydrogenase activity. Our interpretation of the available crystal structure of 3 alpha/20 beta-HSD from Streptomyces hydrogenans suggests a hydrogen bond in that enzyme between the Thr12 side chain and the backbone NH of Asn87 rather than the coenzyme, indicating that this hydrogen bond to the beta D strand might determine a crucial difference between the reductive and the oxidative reaction types. Similarly, mutation of Asn87 to Ala results in an 80% reduction of kcat/Km in the dehydrogenase direction but also unchanged 3-oxoreductase properties. It appears that the binding of NAD+ to the protein is influenced by local structural changes involving strand beta D and turn beta A to alpha B.
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PMID:Active site directed mutagenesis of 3 beta/17 beta-hydroxysteroid dehydrogenase establishes differential effects on short-chain dehydrogenase/reductase reactions. 899 15

Meiotic maturation of fish oocytes is induced by the action of maturation-inducing hormone (MIH). 17 alpha,20 beta-Dihydroxy-4-pregnen-3-one (17 alpha,20 beta-DP) was identified as the MIH of several fish species, including salmonid fishes. The interaction of two ovarian follicle cell layers, the thecal and granulosa cell layers, is required for the synthesis of 17 alpha,20 beta-DP; the thecal layer produces 17 alpha-hydroxyprogesterone that is converted to 17 alpha,20 beta-DP in granulosa cells by the action of 20 beta-hydroxysteroid dehydrogenase (20 beta-HSD). The preovulatory surge of LH-like gonadotropin (GTH II) is responsible for rapid expression of 20 beta-HSD mRNA transcripts in granulosa cells. 17 alpha,20 beta-DP acts via a receptor on the plasma membrane of oocytes. A specific 17 alpha,20 beta-DP receptor has been identified and characterized from defolliculated oocytes of several fish species. The concentrations of 17 alpha,20 beta-DP membrane receptor increase immediately prior to oocyte maturation. The pertussis toxin-sensitive inhibitory G protein is involved in the signal transduction pathway of 17 alpha,20 beta-DP. The early steps following 17 alpha,20 beta-DP action involve the formation of the major mediator of this steroid, maturation-promoting factor, which consists of cdc2 kinase (34 kDa) and cyclin B (46-48 kDa). Immature oocytes contain only monomeric 35 kDa cdc2 and do not stockpile cyclin B, although immature oocytes contain mRNA for cyclin B. 17 alpha,20 beta-DP induces oocytes to synthesize cyclin B, which in turn activates preexisting 35 kDa cdc2 through its threonine 161 phosphorylation by a threonine kinase (M015), producing the 34-kDa active cdc2. 17 alpha,20 beta-DP-induced oocyte maturation is blocked by cordycepin, a polyadenylation inhibitor. Furthermore, cyclin B mRNA was polyadenylated during 17 alpha,20 beta-DP-induced oocyte maturation. These findings suggest that 17 alpha,20 beta-DP initiates translation of cyclin B mRNA through cytoplasmic 3' poly(A) elongation.
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PMID:17 alpha,20 beta-dihydroxy-4-pregnen-3-one, a maturation-inducing hormone in fish oocytes: mechanisms of synthesis and action. 902 36

We investigated two novel point mutations in the human type II 3beta-hydroxysteroid dehydrogenase (3beta-HSD) gene causing a mild and a severe form of 3beta-HSD deficiency congenital adrenal hyperplasia. The first is a nonstop mutation in the normal stop codon 373 of the gene in exon IV [TGA (Stop) --> TGC (Cys) = Stop373C) identified from one allele of a female child with premature pubarche whose second allele had an E142K mutation. The Stop373C mutation predictably results in an open reading frame and a mutant-type (MT) II 3beta-HSD protein containing 467 amino acid residues, compared with the 372 amino acid residues of wild-type (WT) protein. The second is a homozygous missense mutation in codon 222 [CCA (Pro) --> ACT (Thr) = P222T] in the gene identified from a female neonate with salt-wasting disorder. The pcDNA vectors containing the constructs of WT II 3beta-HSD cDNA, WT cDNA with the open reading frame (WT cDNA(+)), MT Stop373C with the open reading frame (Stop373C(+)) and MT P222T cDNA were transfected in COS-I and 293T cells and expressed a similar amount of 3beta-HSD mRNA. The enzyme activity in intact cells using pregnenolone and dehydroepiandrosterone as substrate in the medium (1 micromol/liter) was identical between the WT cDNA and the WT cDNA(+), but was decreased to 27% of the WT enzymes at 6 h by MT Stop373C(+) enzyme, and was undetectable by P222T enzyme. In the homogenates of the cells, both MT Stop373C(+) and P222T enzyme activities and enzymes were undetectable despite clear detection of WT enzyme activities and WT enzymes. LH response to an LHRH analog stimulation in the pubertal female with the Stop373C/E142K genotypes and in a pubertal female with compound 273/318 frameshift genotypes were comparable to and higher than control females, respectively. In conclusion, a structurally lengthy MT II 3beta-HSD enzyme due to a nonstop mutation was relatively detrimental in intact cells causing the nonclassic phenotype of 3beta-HSD deficiency. A missense P222T mutation was seriously detrimental, causing the classic phenotype of 3beta-HSD deficiency. The undetectable Stop373C and P222T enzymes on Western blottings, together with the respective in vivo and in vitro data, suggest that a relative instability of Stop373C enzyme and a profound instability of the P222T enzyme are likely the detrimental molecular mechanisms. The increased LH in the female with the frameshift genotype and the appropriate LH response in the female with the nonstop genotype correlated with predictably severe and mild ovarian type II 3beta-HSD deficiency, respectively.
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PMID:A novel nonstop mutation in the stop codon and a novel missense mutation in the type II 3beta-hydroxysteroid dehydrogenase (3beta-HSD) gene causing, respectively, nonclassic and classic 3beta-HSD deficiency congenital adrenal hyperplasia. 1205 Feb 13

We investigated the role of the cerebellar flocculus in mediating the adaptive changes that occur in the intrinsic properties of brainstem medial vestibular nucleus (MVN) neurons during vestibular compensation. Ipsi-lesional, but not contra-lesional, flocculectomy prevented the compensatory increase in intrinsic excitability (CIE) that normally occurs in the de-afferented MVN neurons within 4 h after unilateral labyrinthectomy (UL). Flocculectomy did not, however, prevent the down-regulation of efficacy of GABA receptors that also occurs in these neurons after UL, indicating that these responses of the MVN neurons to deafferentation are discrete, parallel processes. CIE was also abolished by intra-floccular microinjection of the metabotropic glutamate receptor (mGluR) antagonist AIDA, and the protein kinase C inhibitor bisindolymaleimide I (BIS-I). The serene-threonine kinase inhibitor H-7 had no effect when microinjected at the time of de-afferentation, but abolished CIE if microinjected 2 h later. These cellular effects are in line with the recently reported retardatory effects of BIS-I and H-7 on behavioural recovery after UL. They demonstrate that the increase in intrinsic excitability in MVN neurons during vestibular compensation is cerebellum dependent, and requires mGluR activation and protein phosphorylation in cerebellar cortex. Furthermore, microinjection of the glucocorticoid receptor (GR) antagonist RU38486 into the ipsi-lesional flocculus also abolished CIE in MVN neurons. Thus an important site for glucocorticoids in facilitating vestibular compensation is within the cerebellar cortex. These observations ascribe functional significance to the high levels of GR and 11-beta-HSD Type 1 expression in cerebellum.
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PMID:Role of the flocculus in mediating vestibular nucleus neuron plasticity during vestibular compensation in the rat. 1248 95

A novel mucin (qniumucin), which we recently discovered in jellyfish, was investigated by several NMR techniques. Almost all the peaks in the (13)C and proton NMR spectra were satisfactorily assigned to the amino acids in the main chain and to the bridging GalNAc, the major sugar in the saccharide branches. The amino acid sequence in the tandem repeat part (-VVETTAAP-) was reconfirmed by the cross-peaks between alpha protons and carbonyl carbons in the HMBC spectrum. A connectivity analysis around the O-glycoside bond (GalNAc-Thr) was also performed, and detailed information on the local configuration was obtained by the DPFGSE-NOE-HSD technique. The strategy and the results described in this paper can be extended to the structural analysis of general O-glycan chains, which are more complex than the present mucin. NMR analyses reveal the simple structure of qniumucin extracted by the present protocol, and the homogeneity and purity of qniumucin are probably the result of it being extracted from jellyfish, a primitive animal.
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PMID:NMR study on a novel mucin from jellyfish in natural abundance, Qniumucin from Aurelia aurita. 1937 Oct 80

Initial steps of aspartate-derived biosynthesis pathway (Asp pathway) producing Lys, Thr, Met and Ile are catalyzed by bifunctional (AK/HSD) and monofunctional (AK-lys) aspartate kinase (AK) enzymes. Here, we show that transcription of all AK genes is negatively regulated under darkness and low sugar conditions. By using yeast one-hybrid assays and complementary chromatin immunoprecipitation analyses in Arabidopsis cells, the bZIP transcription factors ABI5 and DPBF4 were identified, capable of interacting with the G-box-containing enhancer of AK/HSD1 promoter. Elevated transcript levels of DPBF4 and ABI5 under darkness and low sugar conditions coincide with the repression of AK gene expression. Overexpression of ABI5, but not DPBF4, further increases this AK transcription suppression. Concomitantly, it also increases the expression of asparagines synthetase 1 (ASN1) that shifts aspartate utilization towards asparagine formation. However, in abi5 or dpbf4 mutant and abi5, dpbf4 double mutant the repression of AK expression is maintained, indicating a functional redundancy with other bZIP-TFs. A dominant-negative version of DPBF4 fused to the SRDX repressor domain of SUPERMAN could counteract the repression and stimulate AK expression under low sugar and darkness in planta. This effect was verified by showing that DPBF4-SRDX fails to recognize the AK/HSD1 enhancer sequence in yeast one-hybrid assays, but increases heterodimmer formation with DPBF4 and ABI5, as estimated by yeast two-hybrid assays. Hence it is likely that heterodimerization with DPBF4-SRDX inhibits the binding of redundantly functioning bZIP-TFs to the promoters of AK genes and thereby releases the repressing effect. These data highlight a novel transcription control of the chloroplast aspartate pathway that operates under energy limiting conditions.
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PMID:Transcriptional control of aspartate kinase expression during darkness and sugar depletion in Arabidopsis: involvement of bZIP transcription factors. 2127 47


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