Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
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Target Concepts:
Gene/Protein
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Query: EC:3.1.3.5 (
5'-nucleotidase
)
3,167
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Chronic exposure of H9 cells to 25 microM zidovudine (H9-AZT cells) causes a 2- to 3-fold increase in thymidine kinase (TK) activity (Agarwal RP, Int J Purines Pyrimidine Res, in press). The present study compared thymidine (TdR) and AZT anabolism in H9 and H9-AZT cells. After a 3.5-hr incubation with 10 microM TdR or AZT, the total intracellular accumulations of AZT (48.7 microM in H9 cells and 32.8 microM in H9-AZT cells) were 46.4% of TdR accumulation. Other major differences between TdR and AZT anabolism were: (i) the majority of TdR (84-87%) was incorporated into DNA compared to less than 1% of AZT; and (ii) whereas distribution of TdR in the nucleotides was
TTP
greater than TMP greater than TDP, zidovudine distributed was AZT-MP much greater than AZT-TP much greater than AZT-DP. Because of the poor substrate activity of AZT-MP for thymidylate kinase (TMP-kinase), most of the AZT (95-98%) remained as AZT-MP. TMP-kinase activities with TMP as substrate were 47.6 +/- 20.3 and 91.4 +/- 28.8 pmol/mg protein/min in H9 and H9-AZT cells, respectively. 5'-Nucleotidase activities with TMP as substrate were 428.9 +/- 37.8 and 255.9 +/- 28.7 pmol/mg protein/min in H9 and H9-AZT cells, respectively. Activities of these enzymes with AZT-MP as a substrate were very low. Despite an increase in TK and TMP-kinase, and a decrease in
5'-nucleotidase
activities, the total intracellular accumulations of TdR and AZT were reduced significantly (P less than 0.05) to 67.5% in H9-AZT cells. Thymidine transport (0.66 to 0.68 pmol/sec/10(6) cells) was similar in both the cell lines. The severe reductions of TdR salvage caused by chronic exposure of cells to AZT, if it occurs in AIDS patients on AZT chemotherapy, may explain some of the long-term clinical toxicities of the drug.
...
PMID:Thymidine and zidovudine metabolism in chronically zidovudine-exposed cells in vitro. 186 45
Micromolar concentrations of GDP or GTP stimulate protein synthesis by isolated yeast mitochondria 3- to 10-fold even if alpha-ketoglutarate and an ATP-regenerating system are present. No stimulation is observed with GMP, UTP, CTP,
TTP
, and the nonhydrolyzable GTP analogues guanyl(beta, gamma-methylene) diphosphate and guanyl imidodiphosphate. This stimulatory effect of exogenously added guanyl nucleotides may answer the long standing question why protein synthesis by isolated mitochondria is so slow. It can also explain previous reports by two other laboratories that a high speed supernatant from yeast cells stimulates protein synthesis by isolated mitochondria. The supernatant contains nondialyzable GMP which is converted to GDP under the conditions used for assaying mitochondrial protein synthesis. The stimulatory effect of high speed supernatants is abolished by
5'-nucleotidase
(which degrades GMP) or by trypsin (which destroys supernatant protein(s) necessary for converting GMP to GDP). No evidence was obtained that the stimulatory effect of high speed supernatants was caused by precursors to cytoplasmically made cytochrome c oxidase subunits.
...
PMID:Stimulation of in vitro mitochondrial protein synthesis by yeast cytoplasmic extracts is caused by guanyl nucleotides. 624 10
An acid phosphatase (HppA) activated by NH4Cl was purified 192- and 34-fold from the periplasmic and membrane fractions of Helicobacter pylori, respectively. SDS-polyacrylamide gel electrophoresis revealed that HppA from the latter appears to be several kilodaltons larger in molecular mass than from the former by about 24 kDa. Under acidic conditions (pH< or =4.5), the enzyme activity was entirely dependent on the presence of certain mono- and/or divalent metal cations (e.g., K+, NH4 +, and/or Ni2+). In particular, Ni2+ appeared to lower the enzyme's Km for the substrates, without changing Vmax. The purified enzyme showed differential specificity against nucleotide substrates with pH; for example, the enzyme hydrolyzed adenosine nucleotides more rapidly at pH 5.5 than at pH 6.0, and vice versa for CTP or
TTP
. Analyses of the enzyme's N-terminal sequence and of an HppA- H. pylori mutant revealed that the purified enzyme is identical to rHppA, a cloned H. pylori class C acid phosphatase, and shown to be the sole bacterial
5'-nucleotidase
uniquely activated by NH4Cl. In contrast to wild type, HppA- H. pylori cells grew more slowly. Strikingly, they imported Mg2+ at a markedly lowered rate, but assimilated urea rapidly, with a subsequent increase in extracellular pH. Moreover, mutant cells were much more sensitive to extracellular potassium ions, as well as to metronidazole, omeprazole, or thiophenol, with considerably lowered MIC values, than wild-type cells. From these data, we suggest that the role of the acid phosphatase HppA in H. pylori may extend beyond
5'-nucleotidase
function to include cation-flux as well as pH regulation on the cell envelope.
...
PMID:Identification and characterization of the acid phosphatase HppA in Helicobacter pylori. 2161 45
