Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0021051 (immunodeficiency)
71,517 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A traditional Kampo drug, Sho-saiko-to, composed of several herb extracts, differentially inhibited the activities of reverse transcriptase and human cellular DNA polymerase alpha and beta. Reverse transcriptases from murine leukemia virus and human immunodeficiency virus were inhibited by over 80% and 50%, respectively, in the presence of 100 micrograms/ml Sho-saiko-to, whereas DNA polymerase alpha was much less sensitive to inhibition by this drug than were the reverse transcriptases. DNA polymerase gamma was not inhibited by this drug at concentrations of up to 500 micrograms/ml. Only DNA polymerase beta was moderately inhibited by Sho-saiko-to. Thus, it has been shown that the inhibition by Sho-saiko-to is relatively specific for reverse transcriptase and that the drug contains as yet unidentified inhibitory substance(s) for reverse transcriptase.
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PMID:Differential inhibition of the activities of reverse transcriptase and various cellular DNA polymerases by a traditional Kampo drug, sho-saiko-to. 128 36

2',3'-Dideoxy-3'-thiacytidine (cis-(+/-)-SddC) was found to have potent activity against hepatitis B virus and human immunodeficiency viruses in culture. Recent studies by us identified (-)-SddC as the stereoisomer responsible for the antiviral effect and showed that the cytotoxicity was mainly caused by (+)-SddC. Metabolism studies showed that these drugs were converted to their monophosphates, diphosphates, and triphosphates. The enzyme responsible for the formation of monophosphates was identified to be cytoplasmic deoxycytidine kinase in CEM cells. Uptake studies showed that the intracellular concentration of (-)-SddC and its metabolites was approximately 5-fold higher than that of (+)-SddC metabolites. (-)-SddCTP was more potent than (+)-SddCTP in inhibiting hepatitis B virus replication; (+)- and (-)-SddCTP exhibited minimal inhibition on polymerases alpha and delta, more inhibition on beta, and strong inhibition on gamma. In all cases, (+)-SddCTP was found to be more inhibitory than (-)-SddCTP to all four polymerases. (+)-SddCMP competed with dCTP for incorporation into DNA by DNA polymerase gamma and beta and served as a chain terminator; however, similar incorporation was not detected using other polymerases. The selective inhibition of DNA synthesis in isolated mitochondria by (+)- and (-)-SddCTP suggests a stereospecificity on the mitochondrial uptake of deoxynucleoside triphosphates.
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PMID:Biochemical pharmacology of (+)- and (-)-2',3'-dideoxy-3'-thiacytidine as anti-hepatitis B virus agents. 133 Oct 54

(-)-2'-Deoxy-3'-thiacytidine (3TC) is a selective inhibitor of human immunodeficiency virus replication in vitro (J. A. V. Coates, N. Cammack, H. J. Jenkinson, A. J. Jowett, M. I. Jowett, B. A. Pearson, C. R. Penn, P. L. Rouse, K. C. Viner, and J. M. Cameron, Antimicrob. Agents Chemother. 36:733-739, 1992). The effect of 3TC 5'-triphosphate on both the RNA-dependent and DNA-dependent activities of human immunodeficiency virus type 1 reverse transcriptase and DNA polymerases alpha, beta, and gamma from HeLa cells was investigated. 3TC 5'-triphosphate is a competitive inhibitor (with respect to dCTP) of the RNA-dependent DNA polymerase activity (apparent Ki = 10.6 +/- 1.0 to 1.24 +/- 5.1 microM, depending on the template and primer used); the DNA-dependent DNA polymerase activity is 50% inhibited by a 3TC 5'-triphosphate concentration of 23.4 +/- 2.5 microM when dCTP is present at a concentration equal to its Km value. Chain elongation studies show that 3TC 5'-triphosphate is incorporated into newly synthesized DNA and that transcription is terminated in a manner identical to that found for ddCTP. The 50% inhibitory concentrations of 3TC 5'-triphosphate against DNA polymerases alpha, beta, and gamma at concentrations of dCTP equal to the Km were 175 +/- 31, 24.8 +/- 10.9, and 43.8 +/- 16.4 microM, respectively. More detailed kinetic studies with 3TC 5'-triphosphate and DNA polymerases beta and gamma are consistent with the fact that inhibition of these enzymes by 3TC 5'-triphosphate is competitive with respect to dCTP. The values of Ki were determined to be 18.7 microM for DNA polymerase beta and 15.8 +/- 0.8 microM for DNA polymerase gamma.
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PMID:Effects of (-)-2'-deoxy-3'-thiacytidine (3TC) 5'-triphosphate on human immunodeficiency virus reverse transcriptase and mammalian DNA polymerases alpha, beta, and gamma. 138 25

In order to clarify the biological activities of (-)-oxetanocin G, and (-)-oxetanocin A and its carbocyclic analogue, (-)-carboxetanocin G, the inhibitory effects of triphosphate derivatives of these compounds (OXT-GTP, OXT-ATP, and C-OXT-GTP) on eukaryotic and viral DNA polymerases were examined. DNA polymerase alpha purified from calf thymus was weakly inhibited by OXT-GTP and OXT-ATP but strongly by C-OXT-GTP, the Ki value being 0.22 microM. On the other hand, rat DNA polymerase beta was not affected by these analogues. DNA polymerase gamma purified from bovine testes was very weakly inhibited by OXT-GTP and OXT-ATP, but not by C-OXT-GTP. DNA polymerase from herpes simplex virus type-II (HSV-II) was strongly inhibited by all three analogues, the Ki values ranging from 0.5 to 1.0 microM. Human immunodeficiency virus-encoded reverse transcriptase (HIV RT) was also strongly inhibited by these three analogues, the Ki value of C-OXT-GTP being slightly smaller than that of OXT-GTP or OXT-ATP. Analysis of products synthesized on singly primed M13 single-stranded DNA by DNA polymerase alpha, HSV-II DNA polymerase or HIV RT in the presence of the analogues revealed that OXT-GTP and C-OXT-GTP were incorporated into DNA and caused chain termination mainly at sites one or two nucleotides beyond the cytosine bases on the template.
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PMID:Inhibitory effects of triphosphate derivatives of oxetanocin G and related compounds on eukaryotic and viral DNA polymerases and human immunodeficiency virus reverse transcriptase. 138 92

Long-term zidovudine therapy in patients with human immunodeficiency virus (HIV) infection can cause a destructive mitochondrial myopathy with histological features of ragged-red fibres (RRF) and proliferation of abnormal mitochondria. In 9 zidovudine-treated patients with this myopathy we found severely reduced amounts (up to 78% reduction vs normal adult controls) of mitochondrial DNA (mtDNA) in muscle biopsy specimens by means of Southern blotting. In 2 HIV-positive patients who had not received zidovudine, muscle mtDNA content did not differ from that in the 4 controls. Depletion of mtDNA seems to be reversible, since 1 patient showed a substantial reduction in RRF and a concomitant pronounced increase in muscle mtDNA content after zidovudine therapy was discontinued. Depletion of muscle mtDNA is probably due to zidovudine-induced inhibition of mtDNA replication by DNA polymerase gamma and is not a secondary effect of HIV infection.
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PMID:Depletion of muscle mitochondrial DNA in AIDS patients with zidovudine-induced myopathy. 167 89

Wheat DNA polymerase A has been purified from wheat germ. The previous purification procedure (Castroviejo, M. et al. (1979) Biochem. J. 181, 183-191; Tarrago-Litvak, L. et al. (1975) FEBS Lett. 59, 125-130), has been improved leading to a higher degree of purity. Several biochemical properties of the enzyme are described. Interestingly, wheat DNA polymerase A is able to copy natural poly(A)+ mRNA into cDNA, in a way that is similar to that of the human immunodeficiency virus reverse transcriptase (HIV-RT). All four dXTP and the oligo dT primer were required for cDNA synthesis. The cDNA product was completely digested in the presence of DNase I and predigestion of the mRNA template with RNase decreased dramatically the cDNA synthesis. The animal DNA polymerase gamma can not copy natural mRNA. Substances, known to alter the enzymatic activities have been used to compare enzymes properties. In the presence of glycerol, ethidium bromide or spermine, wheat DNA polymerase A, HIV-RT and DNA polymerase gamma behave similar and they differ from animal DNA polymerase alpha. Nevertheless, DNA polymerase A is more resistant than HIV-RT and DNA polymerase gamma to the chain terminator ddTTP, while the wheat enzyme is more inhibited than DNA polymerase gamma but more resistant than HIV-RT in the presence of N3-TTP.
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PMID:Wheat embryo DNA polymerase A reverse transcribes natural and synthetic RNA templates. Biochemical characterization and comparison with animal DNA polymerase gamma and retroviral reverse transcriptase. 169 Oct 20

Digallic acid (gallic acid 5,6-dihydroxy-3-carboxyphenyl ester) [4] was found to be a potent inhibitor of the activities of the reverse transcriptases from murine leukemia virus (MLV) and human immunodeficiency virus (HIV). Under the reaction conditions specified for each of MLV and HIV reverse transcriptases, both enzymes were inhibited by approximately 90% in the presence of 0.5 micrograms/ml digallic acid. Under the same conditions, however, gallic acid had no effect on the reverse transcriptase activity. The mode of the inhibition by digallic acid was partially competitive with respect to the template.primer, (rA)n.(dT)12-18', and noncompetitive to the triphosphate substrate, dTTP. The Ki value of digallic acid for HIV-reverse transcriptase was determined to be 0.58 microM. Examination of several derivatives of digallic acid have shown that all three hydroxyl groups at the 3, 4, and 5 positions seem to be required for the inhibitory activity of these compounds. Besides reverse transcriptase, DNA polymerases alpha and beta were moderately inhibited by digallic acid, whereas DNA polymerase gamma, terminal deoxynucleotidyltransferase, and E. coli DNA polymerase I were virtually insensitive to inhibition by this compound.
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PMID:Differential inhibition of reverse transcriptase and various DNA polymerases by digallic acid and its derivatives. 170 74

Zidovudine (azidothymidine (AZT)) inhibits human immunodeficiency virus replication, prolongs survival, and delays progression of acquired immune deficiency syndrome. We determined AZT-induced molecular and ultrastructural changes in the rat heart. Rats (3 per group) were given drinking water with or without AZT (0.2 to 1.0 mg/ml; 29 to 102 mg/kg/day). After 21, 35, or 49 days, hearts were glutaraldehyde-fixed by abdominal aortic perfusion, processed, and examined by transmission electron microscopy. In parallel, myocardial RNA was extracted from hearts (AZT dose: 1 mg/ml; 35 days) and subjected to Northern analysis using cDNA probes for: alpha c-actin, troponin C, mitochondrial creatine kinase and malate dehydrogenase, a portion of the mitochondrial genome containing cytochrome b coding region (pMM26), and glyceraldehyde-3-phosphate dehydrogenase. Results showed marked and widespread cardiac mitochondrial swelling with fractured and disrupted cristae after 35 days of 1 mg/ml AZT. After a 14-day recovery, these ultrastructural defects did not reverse. Changes were not present in myocardium after 21 days of AZT nor after 35 days of lower dose AZT (0.2 mg/ml). Mitochondrial cytochrome b mRNA expression was depressed in AZT-treated rat hearts (35 days; 1 mg/ml AZT). mRNAs encoding glyceraldehyde-3-phosphate dehydrogenase, alpha c-actin, troponin C, mitochondrial creatine kinase, malate dehydrogenase, and mitochondrial ribosomal RNAs remained unchanged. AZT disrupts cardiac mitochondrial ultrastructure and expression of mitochondrial cytochrome b mRNA in a dose- and time-dependent fashion. The mechanism of AZT cardiotoxicity may relate to inhibition of mitochondrial DNA replication (at the level of DNA polymerase gamma) as postulated by others.
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PMID:Mitochondrial ultrastructural and molecular changes induced by zidovudine in rat hearts. 171 47

2',3'-dideoxyguanosine 5'-triphosphate (ddGTP) was found to be an efficient substrate for DNA polymerase beta when activated DNA was used as the template.primer. Under the optimized reaction conditions with activated DNA, the rate of the incorporation of ddGTP into DNA was almost equal to that of the corresponding normal substrate dGTP. The Km value for ddGTP (1.8 microM) was smaller than that for dGTP (7.8 microM). In contrast, ddGTP was not utilized as a substrate for DNA polymerase gamma with any of the activated DNA and (dC)n.(dG)12-18 as the template primer. Other DNA polymerases such as DNA polymerase alpha, E coli DNA polymerase I and retroviral reverse transcriptase could poorly utilize ddGTP as a substrate. Some of the kinetic properties of DNA polymerase beta revealed toward ddGTP are also described. Since DNA polymerase beta plays a role in DNA repair, the present results predict possible appearance of cytotoxicity or clinical side effect(s) of 2',3'-dideoxyguanosine (ddG), known as a potent inhibitor of human immunodeficiency virus, when ddG is administered to the patients with acquired immune deficiency syndrome (AIDS) or AIDS-related complex.
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PMID:Differential utilization of 2',3'-dideoxyguanosine 5'-triphosphate as a substrate for various DNA polymerases. 193 1

The reverse transcriptase from human immunodeficiency virus type 1 was purified from the virus to near homogeneity. The enzyme was shown to possess both RNA-dependent and DNA-dependent DNA-synthesizing activity. Activated DNA as a heteropolymeric substrate was used as efficiently as was the homopolymeric substrate poly(rA)-oligo(dT). The Michaelis-Menten constants were determined for each of the four nucleotides needed to elongate a natural template primer. Azidothymidine triphosphate, a well-known inhibitor of the enzyme, inhibited the enzyme competitively with respect to dTTP and noncompetitively with respect to the other nucleotides. Azidothymidine triphosphate acted as an efficient inhibitor of cellular DNA polymerase gamma, whereas other enzymes of eucaryotic DNA metabolism, namely, DNA polymerase alpha-primase and DNA polymerase beta, were not inhibited. This finding may explain why some acquired immunodeficiency syndrome patients suffer side effects during azidothymidine therapy.
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PMID:Azidothymidine triphosphate is an inhibitor of both human immunodeficiency virus type 1 reverse transcriptase and DNA polymerase gamma. 248 2


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