UNIPROT:P06889 - FACTA Search

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Activity of NAD-dependent 17 beta-hydroxysteroid dehydrogenase (E2DH), the enzyme which converts estradiol (E2) into its less active metabolite estrone (E1), has been previously characterized in normal human breast cells in culture and in benign and malignant breast tumors. E2DH activity is far greater in epithelial cells than in fibroblasts. Moreover, it is progesterone dependent in epithelial cells. It was therefore interesting to explore E2DH in the progesterone receptor (PR)-rich T47D cell line as a possible marker of hormone dependence in breast cancer cells. In T47D cells, transformation of [3H]E2 to E1 is limited. The metabolism seems to be preferentially oriented in the way E1----E2 in these cells. However, in the presence of the cofactor NAD the conversion of E2 into E1 increases. Moreover, treatment of T47D cells in culture by the progestin R5020 stimulates E2 to E1 conversion 2- to 3-fold. Stimulation of E2DH (E2----E1) activity reflects both the presence and the operability of PR. This observation underlines the possible interest of E2DH assay in parallel to estradiol receptor and PR to evaluate hormone-dependence of breast cancer.
J Steroid Biochem Mol Biol 1991 Nov
PMID:17 beta-estradiol dehydrogenase (E2DH) activity in T47D cells. 195 11

Purified pea chloroplast NADP-malate dehydrogenase (S)-malate: NADP+ oxidoreductase, EC 1.1.1.82) was digested with trypsin and the resulting peptides were separated by HPLC and sequenced. Together with the information from earlier work (Fickenscher, K. et al. (1987) Eur. J. Biochem. 168, 653-658) the total sequence is not known to an extent of 78%. Comparison with the sequence of the corn NADP-malate dehydrogenase deduced from its cDNA (Metzler, M.C. et al. (1989) Plant Mol. Biol. 12, 713-722) showed 84% agreement; however, the 11 N-terminal residues exhibit only 27% similarity. The N- and C-terminal extrapeptides of the pea NADP-malate dehydrogenase when aligned with non-regulatory NAD-malate dehydrogenases from bacteria or mammals consist of 30 and 17 amino acids, respectively. Since all cysteine-containing peptides were sequenced, the number of eight cysteines per subunit of the pea enzyme was established. The native, oxidized enzyme is characterized by an extremely slow reactivity of two thiols. Titration of the thiols of the denatured, oxidized enzyme both with DTNB and with pCMB resulted in six thiols not involved in disulfide formation. Therefore, one disulfide bridge must be present per 38.9 kDa subunit. Analysis of disulfide bonds by urea gel electrophoresis confirmed this finding. Using digestion products of NADP-malate dehydrogenase with aminopeptidase K, the location of the single disulfide bridge was established to be on the N-terminal arm (Cys-12 and Cys-17) of the polypeptide chain.
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PMID:Primary structure and analysis of the location of the regulatory disulfide bond of pea chloroplast NADP-malate dehydrogenase. 198 82

The URE2 gene of Saccharomyces cerevisiae has been cloned and sequenced. It encodes a predicted polypeptide of 354 amino acids with a molecular weight of 40,226. Deletion of the first 63 amino acids does not have any effect on the function of the protein. Studies with disruption alleles of the URE2 and GLN3 genes showed that both genes regulate GLN1 and GDH2, the structural genes for glutamine synthetase and NAD-linked glutamate dehydrogenase, respectively, at the transcriptional level, but expression of the regulatory genes does not appear to be regulated. Active URE2 gene product was required for the inactivation of glutamine synthetase upon addition of glutamine to cells growing with glutamate as the source of nitrogen. The predicted URE2 gene product has homology to glutathione S-transferases. The gene has been mapped to chromosome XIV, 5.9 map units from petX and 3.4 map units from kex2.
Mol Cell Biol 1991 Feb
PMID:The URE2 gene product of Saccharomyces cerevisiae plays an important role in the cellular response to the nitrogen source and has homology to glutathione s-transferases. 199 Feb 86

Pertussis toxin (PT) is a major virulence factor of Bordetella pertussis, and also an important protective antigen. PT is an oligomeric A-B type toxin in which the S1 subunit has the ADP-ribosyltransferase activity whereas the B-oligomer mediates its binding to target cell receptors. To analyze the immunological properties of S1 and to generate probes to localize and characterize S1 functional domains, we synthesized four sets of peptides and peptide analogs corresponding to potentially critical regions of the S1 subunit. Two peptide-KLH conjugates were found to be capable of inducing PT-neutralizing antibodies in rabbits as judged by the CHO cell clustering assay. These peptides comprise residues 1-18 (N18-S1) and 121-138 (NAD-S1), respectively. Immunization with the unconjugated C-terminal peptide C35-S1 (residues 201-235) in the presence of Freund's adjuvant also elicited PT-neutralizing antibodies, indicating that the C-terminal region of S1 contains a potent functional T-helper cell epitope. Using truncated peptide analogs of N18-S1, we have demonstrated that the first three N-terminal residues are essential for inducing neutralizing antibodies. The NAD-S1 peptide elicited a neutralizing antibody response when coupled to KLH via its N-terminal end but not via its C-terminal residue. Identification of these B-cell neutralization epitopes represents a first step towards the rational design of a synthetic vaccine against whooping cough.
Mol Immunol 1991 Mar
PMID:Structural and functional analysis of the S1 subunit of pertussis toxin using synthetic peptides. 201 95

1,4-Dinitro-2-methylpyrrole (DNMP), a mutagenic product formed by the interaction of two common food additives, sorbic acid and sodium nitrite, was transformed to 1-nitro-2-methyl-4-aminopyrrole (NMAP) by human fecal mixtures and various intestinal bacterial strains. Under anaerobic conditions the cell suspensions of Actinomyces, Bacteroides, Clostridium, Eubacterium, Fusobacterium, and Peptostreptococcus spp. demonstrated the nitroreduction activity. Under aerobic conditions, only Actinomyces and Bacteroides spp. showed activity, and this was at a decreased level. In cell suspensions of Bacteroides thetaiotaomicron VPI 5482, NAD(P)H and glucose accelerated the reduction rate, whereas dicoumarol and heat significantly inhibited the rate, and flavin adenine dinucleotide (FAD) and flavin mononucleotide (FMN) did not affect the rate. With cell-free preparations of the same strain, reduction required NAD(P)H as a cofactor in a dose-dependent fashion and was inactivated by air and heat.
Environ Mol Mutagen 1991
PMID:Metabolism of 1,4-dinitro-2-methylpyrrole, a mutagen formed by a sorbic acid-nitrite reaction, by intestinal bacteria. 202 95

As shown in previous crystallographic investigations, upon binding lactate and NAD, lactate dehydrogenase undergoes a large conformational change that results in a surface loop moving roughly 10 A to cover the active site. In addition, there are appreciable movements (approximately 2 A) of five helices and three other loops. We demonstrate by a new fitting procedure that the loop moves on two hinges separated by a relatively rigid type II turn. The first hinge has few steric constraints on it, and its motion can be well accounted for by large changes in two torsion angles, i.e. as in a classic hinge motion. In contrast, the second hinge, which is part of a helix connected to the end of the loop, has many more constraints on it and distributes its deformation over more torsion angles. This novel motion involves the helix stretching and splitting into alpha-helical and 3(10)-helical components and substantial side-chain repacking in the sense of "cogs hopping between grooves" at its interface with the end of a neighboring helix. The loop is stabilized by five transverse (across loop) hydrogen bonds. These are preserved, through the conformational change and through 17 lactate dehydrogenase sequences, more than the longitudinal hydrogen bonds down the sides of the loop. Through a network of contacts, many of them conserved hydrophobic residues, the motion of the loop is propagated outward to structures that have no direct contact with the ligands. These moving structures are on the surface of the protein, and the whole protein can be subdivided into concentric shells of increasing mobility.
J Mol Biol 1991 Jul 05
PMID:Analysis of protein loop closure. Two types of hinges produce one motion in lactate dehydrogenase. 206 13

The aim of the present study was to investigate whether or not alterations of Gs alpha can be detected with cholera toxin-induced ADP-ribosylation in myocardial membranes from patients with heart failure. Therefore, Gs alpha was radiolabeled by cholera toxin-catalzyed (32P)ADP-ribosylation with (32P)NAD as substrate. In membranes from left ventricular myocardium of six patients with dilated cardiomyopathy classified as NYHA IV and three samples from two non-failing donor hearts, labeling was too weak to allow detection of possible changes in the amount of Gs alpha. Therefore, the cytosolic small molecular weight G protein ARF (ADP-ribosylation factor), a cofactor for cholera toxin-induced ADP-ribosylation of Gs alpha, was partially purified from bovine cerebral cortex. ARF activity was quantified by its ability to enhance auto-ADP-ribosylation of cholera toxin A1-subunit. Gs alpha was identified by comparing the ADP-ribosylation patterns of myocardial membranes, membranes prepared from human leukemia (HL 60) and S 49 mouse lymphoma wild type cells (45 kDa-band present) with membranes of the Gs alpha-deficient S 49 variant cyc- (45 kDa-band missing). In the presence of ARF, specific radiolabeling of the Mr 45,000 subtype of Gs alpha was markedly enhanced. The amounts of Gs alpha as measured by cholera toxin-dependent (32P)-ADP-ribosylation in the presence of ARR were similar in failing and nonfailing human hearts. It is concluded that factors other than Gs alpha are responsible for the altered regulation of the adenylate cyclase complex in heart failure. Moreover, by enhancing cholera toxin-catalyzed ADP-ribosylation, endogenous ADP-ribosylation factor from bovine brain appears to be a useful tool to study Gs alpha even in tissues in which the labeling of Gs alpha is rather weak.
J Mol Cell Cardiol 1990 Jan
PMID:Improvement of cholera toxin-catalyzed ADP-ribosylation by endogenous ADP-ribosylation factor from bovine brain provides evidence for an unchanged amount of Gs alpha in failing human myocardium. 210 80

Ribonuclease activity in HeLa cell nuclei is markedly inhibited by ADP-ribosylation following incubation of intact isolated nuclei with [14C]NAD. Time course experiments demonstrate that [14C] incorporation into proteins is accompanied by a 50% inhibition of ribonuclease activity on single-strand and double-strand polynucleotides. Inhibition does not occur when 3-aminobenzamide, a potent (ADP-ribose) polymerase inhibitor, is present. Two enzymatic activities that degrade double-strand polynucleotides have been purified and partially characterized. A relevant level of radioactivity resulting from [14C]NAD incubation of nuclei was associated to the purified enzyme. The RNase F1 component, which shows maximal activity on polyU-polyA is demonstrated to be the major ADP-ribose acceptor protein.
Mol Cell Biochem 1990 Apr 18
PMID:In vitro inhibition of HeLa cell nuclear ribonucleases by ADP-ribosylation. 211 91

The recovery of both contractile performance and metabolic response of rat heart following 1 h of ischemia after equilibration with glucose + insulin (glucose-ischemia) or with pyruvate (pyruvate-ischemia), was tested in normoxic reperfusion in the presence of glucose + insulin, pyruvate, lactate or acetate. In glucose-ischemia only the reperfusion with pyruvate results in a complete recovery of the contractile force (left ventricular pressure, LVP) (170%) and good recovery of high energy phosphate compounds. Lower LVP and tissue energy charge were found in glucose reperfusion and even less in lactate and acetate reperfusion. Disappearance of the IMP accumulated during ischemia is evident only in the pyruvate reperfusion indicating a higher metabolic recovery. On the contrary in pyruvate-ischemia all types of reperfusion tested were effective in reactivating the contractile force (although acetate to a lesser extent); the contractile activity was accompanied by a good recovery of phosphocreatine, ATP, energy charge and by the decrease of IMP. Large decreases of adenine nucleotides and NADP and lower decreases of NAD are observed during ischemia/reperfusion in both systems. Pyruvate-ischemia is quite similar to, if not worse than glucose-ischemia, for all the metabolic parameters considered, but not worse for the possibility of recovery. Some specific effect of pyruvate should be exerted during the ischemic phase. The mechanism of pyruvate protection is discussed in relationship to: (i) the possible activation of pyruvate dehydrogenase, (ii) the activation of NADPH-dependent peroxide scavenging systems, (iii) the direct scavenging action of pyruvate on H2O2.
J Mol Cell Cardiol 1990 Feb
PMID:The protective action of pyruvate on recovery of ischemic rat heart: comparison with other oxidizable substrates. 218 87

The use of digitonin to permeabilize Leishmania mexicana mexicana, Leishmania agamae, and Crithidia fasciculata plasma membranes enabled us to study Ca2+ transport in situ. The present results show that the mitochondria of these trypanosomatids are able to build up and retain a membrane potential as indicated by a tetraphenylphosphonium-sensitive electrode. Ca2+ uptake caused membrane depolarization compatible with the existence of an electrogenically mediated Ca2+ transport mechanism in these mitochondria. Ca2+ uptake was partially inhibited by ruthenium red, almost totally inhibited by carbonyl cyanide p-trifluoromethoxyphenylhydrazone, and stimulated by inorganic phosphate. Large amounts of Ca2+ were retained by C. fasciculata mitochondria even after addition of thiols and NAD(P)H oxidants such as t-butylhydroperoxide and diamide. In contrast, Ca2+ was not retained in the matrix of Leishmania sp. mitochondria for long periods of time. In addition to the mitochondrial Ca2+ uptake, a vanadate-sensitive Ca2(+)-transporting system was also detectable in these trypanosomatids.
Mol Biochem Parasitol 1990 Aug
PMID:Ca2+ transport in digitonin-permeabilized trypanosomatids. 223 96

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