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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)
Rat liver 3 alpha-hydroxysteroid dehydrogenase (3 alpha-
HSD
, EC 1.1.1.50) is an NAD(P)(+)-dependent oxidoreductase which will terminate androgen action by converting 5 alpha-dihydrotestosterone to 3 alpha-androstanediol. It is identical to
dihydrodiol dehydrogenase
and it can function as a 9-, 11-, and 15-hydroxyprostaglandin dehydrogenase. Its reactions are potently inhibited by the nonsteroidal anti-inflammatory drugs (NSAIDs). A cDNA (2.1 kilobases) for 3 alpha-
HSD
was cloned from a rat liver cDNA expression library in lambda gt11. Portions of the cDNA insert which contained an internal EcoRI site were subcloned into pGEM3, and dideoxysequencing revealed that the cDNA contains an open reading frame of 966 nucleotides which encode a protein of 322 amino acids with a monomer Mr of 37,029. The identity of this clone was confirmed by locating two tryptic peptides and two endoproteinase Lys-C peptides from purified 3 alpha-
HSD
within the nucleotide sequence. The amino acid sequence of rat liver 3 alpha-
HSD
bears no significant homology with 3 beta-, 17 beta- or 11 beta-hydroxysteroid dehydrogenases but has striking homology with bovine lung prostaglandin F synthase (69% homology at the amino acid level and 74% homology at the nucleotide level) which is a member of the aldehyde/aldose reductase family. This sequence homology supports previous correlates which suggest that in rat 3 alpha-
HSD
may represent an important target for NSAIDs. The nucleotide sequence also contains three peptides that have been identified by affinity labeling with either 3 alpha-bromoacetoxyandrosterone (substrate analog) or 11 alpha-bromoacetoxyprogesterone (glucocorticoid analog) to comprise the active site (see accompanying article (Penning, T. M., Abrams, W. R., and Pawlowski, J. E. (1991) J. Biol. Chem. 266, 8826-8834]. The sequence data presented suggests that 3 alpha-
HSD
, prostaglandin F synthase, and aldehyde/aldose reductases are members of a common gene family.
...
PMID:Cloning and sequencing of the cDNA for rat liver 3 alpha-hydroxysteroid/dihydrodiol dehydrogenase. 184 Jun 1
Gel filtration fractions of human hepatic cytosol obtained from an autopsy liver were examined for elution of bile acid oxidoreductases. Several enzymes including 3 alpha-hydroxysteroid dehydrogenase (3 alpha-
HSD
), 3 beta-hydroxysteroid dehydrogenase (3 beta-HSD), 3-ketosteroid reductase, and
dihydrodiol dehydrogenase
eluted mainly in the 30,000-40,000 Mr fractions known to contain the newly identified bile acid binder (Stolz, A., Sugiyama, Y., Kuhlenkamp, J., and Kaplowitz, N. (1984) FEBS Lett. 177, 31-35). These enzyme activities could be resolved into six peaks of
dihydrodiol dehydrogenase
activity on chromatofocusing, some of which also had oxidoreductase activity with bile acids. Using equilibrium dialysis, the major lithocholate-binding activity was found to coelute with 3 beta-HSD, completely separate from 3 alpha-
HSD
. Reexamination of the surgical liver specimen originally used to purify the bile acid binder confirmed these results. The peak fraction from chromatofocusing, which exhibited the bulk of binding activity with bile acids, had 3 beta-HSD activity, whereas other fractions had 3 alpha-
HSD
. Anti-serum to the previously purified binder identified a single 36-kDa protein in both liver specimens and exclusively in the chromatofocusing fractions containing both the binding and 3 beta-HSD activity. However, upon further purification of the binder from this fraction, 3 beta-HSD activity was separated from the binder, but the homogeneous protein retained
dihydrodiol dehydrogenase
activity. Thus, in contrast to the rat in which the major bile acid binder is identical to 3 alpha-
HSD
, in human liver the bile acid binder is distinct from 3 alpha-
HSD
and copurifies with a different oxidoreductase that has
dihydrodiol dehydrogenase
activity but no activity with bile acids.
...
PMID:Relationship between the newly identified bile acid binder and bile acid oxidoreductases in human liver. 215 75
Bovine liver NADP(+)-dependent
dihydrodiol dehydrogenase
(DD3) is extremely sensitive to SH reagents such as N-ethylmaleimide (NEM) and 5,5'-dithiobis(2-nitrobenzoic acid). NEM produced time- and concentration-dependent inactivation of DD3 in a pseudo-first-order reaction manner. This inactivation was prevented by NADP+, 3-acetylpyridine-adenine dinucleotide phosphate, 2',5'-ADP and 2'-AMP but not by substrates, NAD+, nicotinamide mononucleotide or 5'-ADP.DD3 was absorbed by an affinity column of thiopropyl-Sepharose 6B, but enzyme incubated with both NEM and NADP+ was not. Moreover, one [14C]NEM molecule was incorporated into a cysteine of DD3 in the presence, and two cysteines of DD3 in the absence, of NADP+. These results suggested that two cysteine residues were modified per enzyme molecule by NEM, one was protected by NADP+ and the other had no significant function for the enzyme activity. Two radiolabelled peptides (P1 and P2) produced by the digestion with lysyl endopeptidase of [14C]NEM-modified DD3 could be separated by reverse-phase HPLC. P1, which was radiolabelled by [14C]NEM only in the absence of NADP+, showed the following sequence; H2N-Tyr-Lys-Pro-Val-Xaa-Asn-Gln-Val-Glu- NEM.Cys-His-Pro-Tyr-Phe-Asn-Gln-Ser-Lys-COOH (Xaa indicates a possible cysteine residue). This sequence was very similar to that of rat liver 3 alpha-hydroxysteroid/
dihydrodiol dehydrogenase
(3 alpha-
HSD
/DD) (residues 184 to 201) and was also highly conserved in the aldo-keto reductase superfamily. The sequence of P2, which had radioactivity in both the absence and presence of NADP+, also contained an NEM-modified cysteine and was similar in sequence to the regions located in loop A of rat 3 alpha-
HSD
/DD. The present study suggests that P1, which may have a cysteine residue corresponding to Cys-193 of rat 3 alpha-
HSD
/DD, functions in the alteration of DD3 activity depending on the modulation of NADP(+)-binding ability through a thiol/disulphide exchange reaction similar to that of rat 3 alpha-
HSD
/DD shown in our previous results; while P2, which may have a cysteine residue corresponding to Cys-145 of rat 3 alpha-
HSD
/DD, may be located near the surface of the enzyme molecule.
...
PMID:The role of cysteine in the alteration of bovine liver dihydrodiol dehydrogenase 3 activity. 764 30
Rat liver 3 alpha-hydroxysteroid/
dihydrodiol dehydrogenase
(3 alpha-
HSD
/DD) is a member of the aldo-keto reductase gene superfamily. It displays high constitutive expression and inactivates circulating steroid hormones and suppresses the formation of polycyclic aromatic hydrocarbon anti- and syn-diol-epoxides (ultimate carcinogens). To elucidate mechanisms responsible for constitutive expression of the 3 alpha-
HSD
/DD gene a rat genomic library obtained from adult Sprague-Dawley female liver (HaeIII partial digest) was screened, using a probe corresponding to the 5'-end of the cDNA (-15 to +250), and a 15.8-kb genomic clone was isolated. Sequencing revealed that 6.3 kb contained exon 1 (+16 to +138 bp) plus additional introns and exons. The transcription start site (+1) was located by primer extension analysis, and the initiation codon, ATG, was located at +55 bp. The remaining 9.5 kb represented the 5'-flanking region of the rat 3 alpha-
HSD
/DD gene. A 1.6-kb fragment of this region was sequenced. A TATTTAA sequence (TATA box) was found at 33 bp upstream from the major transcription start site. cis-acting elements responsible for the constitutive expression of the rat 3 alpha-
HSD
/DD gene were located on the 5'-flanking region by transient transfection of reporter-gene (chloramphenicol acetyl transferase, CAT) constructs into human hepatoma cells (HepG2). CAT assays identified the basal promoter between (-199 and +55 bp), the presence of a proximal enhancer (-498 to -199 bp) which stimulated CAT activity 6-fold, the existence of a powerful silencer (-755 to -498 bp), and a strong distal enhancer (-4.0 to -2.0 kb) which increased CAT activity by 20-40-fold. A computer search of available consensus sequences for trans-acting factors revealed that a cluster of Oct-sites were uniquely located in the silencer region. Using the negative response element (-797 to -498 bp) as a probe and nuclear extracts from HepG2 cells, three bands were identified by gel mobility shift assay, indicating the presence of protein binding sites in this proposed negative response element. All three bands were supershifted with anti-Oct-1 mAb, suggesting that Oct-1 may be the repressor. The 5'-flanking region also contained an AP-1 site, an estrogen response element, and a glucocorticoid response element, which together may comprise a steroid response unit.(ABSTRACT TRUNCATED AT 400 WORDS)
...
PMID:Cloning, sequencing, and functional analysis of the 5'-flanking region of the rat 3 alpha-hydroxysteroid/dihydrodiol dehydrogenase gene. 766 87
The 3.0-A-resolution x-ray structure of rat liver 3 alpha-hydroxysteroid dehydrogenase/
dihydrodiol dehydrogenase
(3 alpha-
HSD
, EC 1.1.1.50) was determined by molecular replacement using human placental aldose reductase as the search model. The protein folds into an alpha/beta or triose-phosphate isomerase barrel and lacks a canonical Rossmann fold for binding pyridine nucleotide. The structure contains a concentration of hydrophobic amino acids that lie in a cavity near the top of the barrel and that are presumed to be involved in binding hydrophobic substrates (steroids, prostaglandins, and polycyclic aromatic hydrocarbons) and inhibitors (nonsteroidal antiinflammatory drugs). At the distal end of this cavity lie three residues in close proximity that have been implicated in catalysis by site-directed mutagenesis--Tyr-55, Asp-50, and Lys-84. Tyr-55 is postulated to act as the general acid. 3 alpha-
HSD
shares significant sequence identity with other HSDs that belong to the aldo-keto reductase superfamily and these may show similar architecture. Other members of this family include prostaglandin F synthase and rho-crystallin. By contrast, 3 alpha-
HSD
shares no sequence identity with HSDs that are members of the short-chain alcohol dehydrogenase family but does contain the Tyr-Xaa-Xaa-Xaa-Lys consensus sequence implicated in catalysis in this family. In the 3 alpha-
HSD
structure these residues are on the periphery of the barrel and are unlikely to participate in catalysis.
...
PMID:Three-dimensional structure of rat liver 3 alpha-hydroxysteroid/dihydrodiol dehydrogenase: a member of the aldo-keto reductase superfamily. 814 47
The overexpression and purification of recombinant rat liver 3 alpha-hydroxysteroid/
dihydrodiol dehydrogenase
(3 alpha-
HSD
; EC 1.1.1.50) in Escherichia coli are described. The properties of the homogeneous recombinant 3 alpha-
HSD
(r3 alpha-
HSD
) confirm that a single polypeptide can function as a
HSD
, as a
dihydrodiol dehydrogenase
, and as an aromatic aldehyde, ketone, and quinone reductase. Cys-170, Cys-242, and Cys-217, implicated by bromoacetoxysteroid affinity-labeling agents as points of contact for the C-3, C-11, and C-17 positions of steroid ligands, were mutated to alanines. Unexpectedly, the homogeneous C170A and C242A mutants were kinetically similar to wild-type r3 alpha-
HSD
. By contrast, the C217A mutant gave Km values that were 4-fold higher for androstanedione and 2-fold higher for NADH. Inspection of the recently solved crystal structure of rat liver 3 alpha-
HSD
(Hoog, S. S., Pawlowski, J. E., Alzari, P. M., Penning, T. M., and Lewis, M. (1994) Proc. Natl. Acad. Sci. U. S. A. 91, 2517-2521) places Cys-170 and Cys-242 on the periphery of an alpha/beta-barrel so that they cannot be involved in catalysis of steroid recognition. This demonstrates that bromoacetoxysteroid affinity-labeling agents may provide misleading information regarding the topography of steroid hormone binding sites. When NADPH was modeled into the crystal structure of 3 alpha-
HSD
, Tyr-55 was implicated as the general acid, since it is in close proximity to the C-4 position of the nicotinamide ring and could polarize the substrate carbonyl. In support of this model, the purified Y55F mutant was found to be catalytically inactive, but still formed an E-NADPH complex (measured by fluorescence titration) and an E-NADH-testosterone complex (measured by equilibrium dialysis). The ability of the Y55F mutant to form binary and ternary complexes, but not aid in hydride transfer, is consistent with Tyr-55 acting as the general acid. 3 alpha-
HSD
is a member of the aldo-keto reductase superfamily, and Tyr-55 is invariant in members of this family where it may perform a similar function. Tyr-205 is present in a pentapeptide sequence that is conserved in HSDs that belong to the short-chain alcohol dehydrogenase family and has been implicated as the general acid within these enzymes. The Y205F mutant was found to be kinetically similar to wild-type r3 alpha-
HSD
.(ABSTRACT TRUNCATED AT 400 WORDS)
...
PMID:Overexpression and mutagenesis of the cDNA for rat liver 3 alpha-hydroxysteroid/dihydrodiol dehydrogenase. Role of cysteines and tyrosines in catalysis. 817 84
In human liver, we previously identified one isoform of
dihydrodiol dehydrogenase
activity that expresses high affinity bile acid binding (HBAB) with minimal 3 alpha-hydroxysteroid dehydrogenase (3 alpha-
HSD
) activity for bile acids. This protein may assist in the rapid intracellular transport of bile acids from the sinusoidal to the canalicular pole of the cell. We now report the cDNA cloning and bacterial expression of this novel, multifunctional protein. A 1252-base pair HBAB cDNA was cloned from a HepG2 lambda GT11 library using a rat hepatic bile acid binder cDNA probe. Bacterial expressed recombinant HBAB oxidized racemic trans dihydrodiol benzene (0.455 mumol NADPH/mg/min) with minimal 3 alpha-
HSD
activity for bile acids (< 0.003 mumol NADPH/mg/min). Lithocholic acid and chenodeoxycholic acid dissociation constants as determined by displacement of the fluorescent probe, bis-1-anilino-8 sulfonate, were higher than those previously reported for the native protein (1 microM versus 10 nM). Significant amino acid sequence homology was found with the human chlordecone reductase, bovine prostaglandin F synthetase, and rat hepatic-3 alpha-
HSD
suggesting, that HBAB is also a member of the recently identified, monomeric oxidoreductase gene family. Future studies will define the physiologic significance of this novel, multifunctional protein in bile acid transport and xenobiotic metabolism.
...
PMID:cDNA cloning and expression of the human hepatic bile acid-binding protein. A member of the monomeric reductase gene family. 848 99
Rat liver 3 alpha-hydroxysteroid/
dihydrodiol dehydrogenase
(3 alpha-
HSD
) inactivates circulating steroid hormones and is involved in polycyclic aromatic hydrocarbon (PAH) carcinogenesis. It is the only
HSD
of known structure in the aldo-keto reductase (AKR) superfamily and may provide a paradigm for other mammalian HSDs in this family. The structure of the 3 alpha-
HSD
.NADP+ binary complex has been determined at 2.7 A resolution and refined to a crystallographic R-factor of 23.4% with good geometry. The model is similar to other binary complexes in the AKR superfamily in that NADP+ binds at the C-terminal end of an alpha/beta barrel. However, it is unique in that NADP+ is bound in two alternate conformations, probably because of the lack of a salt-linked "safety belt" over the pyrophosphate bridge. The structure supports a previously proposed catalytic mechanism for carbonyl reduction in which Tyr 55 is the general acid, and its effective pKa is lowered by the adjacent Lys 84. We present evidence that the structurally distinct short-chain dehydrogenase/reductase (SDR) superfamily may have convergently evolved a similar catalytic mechanism. Insight into substrate binding is offered by a crystal packing contact in which a neighboring molecule inserts a tryptophan residue (Trp 227) into an apolar cleft in 3 alpha-
HSD
. This cleft is proximal to the bound NADP+ cofactor and contains a surface of apolar residues (Leu 54, Trp 86, Leu 122, Phe 128, Phe 129, Leu 137, Phe 139), making it a likely candidate for the substrate-binding site. Thus, in forming this crystal contact, Trp 227 may mimic a portion of a bound steroid. In addition, we propose that a water molecule in the active site indicates the position of the hydroxyl oxygen in a 3 alpha-hydroxysteroid substrate. Knowledge of the position of this water molecule, combined with the stereochemistry of hydride transfer, suggests that the alpha face of a bound steroid will be oriented toward the side of the apolar cleft containing Trp 86.
...
PMID:Structure of 3 alpha-hydroxysteroid/dihydrodiol dehydrogenase complexed with NADP+. 871 59
A new form of the NAD(P)-dependent 3 alpha-hydroxysteroid dehydrogenases (3 alpha-HSDs), present in the gram-negative bacterium Comamonas testosteroni ATCC 11996, was isolated from a testosterone-induced bacterial extract and characterized. The enzyme (
HSD
28) has a monomeric molecular mass of 28 kDa. It belongs to the protein superfamily of short-chain dehydrogenases/reductases (SDR) as established by N-terminal sequence analysis. Along with the 3 alpha-hydroxysteroid dehydrogenase and 3-oxo-reductase activities towards a variety of cis or trans fused A/B ring steroids, it also reduces several xenobiotic carbonyl compounds, including a metyrapone-based class of insecticides, to the respective alcohol metabolites. No
dihydrodiol dehydrogenase
activity towards trans- or cis-benzene-dihydrodiols could be detected, thus distinguishing it from the indomethacine-sensitive, mammalian liver type 3 alpha-HSDs. Subcellular fractionation revealed that the enzyme is localized in the cytoplasm of the bacterial cell. Proteins similar to the 3 alpha-
HSD
were detected and characterized from Comamonas testosteroni strain ATCC 17454 and from a commercially available steroid-induced extract of a patent Pseudomonas strain. The N-terminal amino acid sequence of the 3 alpha-
HSD
from the latter strain (
HSD
29) is highly similar (94% identity over 15 residues) to a previously determined primary structure of a Pseudomonas species 3 alpha-
HSD
. However, no similarities could be detected between
HSD
28 and a recently determined 3 alpha-
HSD
sequence from the ATCC 11996 Comamonas strain. The specific crossreaction of antibodies directed against mammalian liver type I 11 beta-hydroxysteroid dehydrogenase (11 beta-
HSD
I) with the isolated 3 alpha-HSDs suggests the existence of a functionally and structurally related subgroup within the SDR superfamily. The broad substrate specificities of the characterized 3 alpha-
HSD
enzymes lead to the conclusion that they might participate in the intestinal bioactivation or inactivation of hormones, bile acids and xenobiotics since Comamonas testosteroni and related species are found in the intestinal tract of vertebrates including man.
...
PMID:Characterization of a 3 alpha-hydroxysteroid dehydrogenase/carbonyl reductase from the gram-negative bacterium Comamonas testosteroni. 894 61
The bioactivation of polycyclic aromatic hydrocarbons (PAHs) to their ultimate carcinogenic forms proceeds via the formation of proximate carcinogen trans-dihydrodiols. Previous studies demonstrated that rat liver 3 alpha-hydroxysteroid dehydrogenase/
dihydrodiol dehydrogenase
(3 alpha-
HSD
/DD), a member of the aldo-keto reductase (AKR) superfamily, oxidizes PAH trans-dihydrodiols to redox-cycling o-quinones. Multiple closely related AKRs exist in human liver; however, it is unclear which, if any, participate in PAH activation by catalyzing the NADP+ -dependent oxidation of PAH trans-dihydrodiols. In this study, cDNAs encoding four human DD isoforms were isolated from HepG2 cells using isoform-selective RT-PCR. The recombinant proteins were overexpressed in Escherichia coli, purified to homogeneity, and kinetically characterized. Calculation of KM and kcat values of each isoform for model substrates revealed that they possessed enzymatic activities assigned to native human liver DD1, DD2, DD4, and type 2 3alpha-HSD (DDX) proteins. The ability of human DDs to oxidize the potent proximate carcinogen (+/-)-trans-7,8-dihydroxy-7, 8-dihydrobenzo[a]pyrene (BP-diol) was then examined. A reverse phase HPLC radiochemical assay demonstrated that all four isoforms oxidize (+/-)-BP-diol in the following rank order: DD2 > DD1 > DD4 > DDX. Each DD consumed the entire racemic BP-diol mixture, indicating that both the minor (+)-S,S- and major (-)-R,R-stereoisomers formed in vivo are substrates. First-order decay plots showed that DD1 and DD2 displayed preferences for one of the stereoisomers, and circular dichroism spectroscopy indicated that this isomer was the (+)-7S, 8S-enantiomer. The products of these reactions were trapped as either glycine or thiol ether conjugates of benzo[a]pyrene-7,8-dione (BPQ), indicating that the initial oxidation product was the reactive BPQ. Thus, human liver possesses multiple AKRs which contribute to PAH activation by catalyzing the NADP+-dependent oxidation of PAH trans-dihydrodiols to redox-active o-quinones.
...
PMID:Expression and characterization of four recombinant human dihydrodiol dehydrogenase isoforms: oxidation of trans-7, 8-dihydroxy-7,8-dihydrobenzo[a]pyrene to the activated o-quinone metabolite benzo[a]pyrene-7,8-dione. 957 63
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