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:C0019693 (HIV)
170,526 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

HIV is the causative agent of AIDS. The purpose of this study was to examine the biochemical pharmacology of the anti-viral agent zidovudine (AZT) in the T-cell origin line (CEM). We have shown that zidovudine is activated by thymidine kinase (TK) in CEM cells to the triphosphate anabolite, which is incorporated into DNA. One microM zidovudine is sufficient for saturation of activation by TK and also of zidovudine monophosphate, by thymidylate kinase, to the diphosphate. Zidovudine triphosphate peaked 4 h after initiation of drug administration in CEM cells and then declined biexponentially. Nucleoside triphosphate (NTP) cellular concentrations declined rapidly in the cells after exposure to zidovudine. Concomitantly phosphorylation of zidovudine to zidovudine monophosphate and zidovudine monophosphate to zidovudine diphosphate declined in a similar manner in the CEM cells. The amount of zidovudine anabolite incorporated into purified DNA peaked 1 h after zidovudine treatment and declined thereafter with first order elimination kinetics. These studies elucidate the cellular activation of zidovudine in a T-cell line, CEM, and enhance our understanding of this important anti-HIV drug.
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PMID:Biochemical pharmacology of zidovudine in human T-lymphoblastoid cells (CEM). 250 44

3'-Azido-2',3'-dideoxy-5-iodouridine (AzIdUrd) and 3'-azido-2',3'-dideoxy-5-bromouridine (AzBdUrd), previously shown to be potent and selective inhibitors of human immunodeficiency virus replication in vitro were minimally toxic to the uninfected human lymphoid cell line H9 (IC50 = 197 and 590 microM, respectively). Both compounds strongly inhibited the incorporation of [3H]thymidine but not [3H]deoxyadenosine into DNA, and we observed no significant inhibition of [3H]uridine incorporation into RNA or [3H]amino acid incorporation into protein. Exposure of H9 cells to AzIdUrd or AzBdUrd (100 microM, 24 hr) and pulse-labeling with [3H]thymidine resulted in approximately 80% reduction in levels of tritiated dTMP, dTDP, and dTTP relative to control. [125I]AzIdUrd was phosphorylated rapidly in H9 cells with the monophosphate accounting for over 90% of total soluble radioactivity. A relatively low but stable level of AzIdUTP was maintained over a 12-hr period. [125I]AzIdUrd was phosphorylated by a cell free extract of H9 cells at a rate approximately three times that of thymidine and its phosphorylation was inhibited by excess thymidine. AzIdUrd was found to be a competitive inhibitor of cytosolic thymidine kinase with a Ki of 2.63 microM and AzIdUMP a weak competitive inhibitor of thymidylate kinase with a Ki of 55.3 microM. Both AzIdUTP and AzBdUTP were potent competitive inhibitors of HIV-1 reverse transcriptase (Ki = 0.028 and 0.043 microM, respectively) and relatively poor inhibitors of H9 cell DNA polymerase alpha (Ki = 42.0 and 42.7 microM, respectively). Thus, the high therapeutic index of these compounds is due to the sensitivity of the viral reverse transcriptase, coupled with the relative insensitivity of the host cell DNA polymerase alpha.
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PMID:Metabolism and mode of selective inhibition of human immunodeficiency virus replication by 3'-azido-2',3'-dideoxy-5-iodouridine and 3'-azido-2',3'-dideoxy-5-bromouridine. 767 40

3'-Azido-3'-deoxythymidine (AZT) is currently under clinical investigation to assess its potential to inhibit maternal-fetal HIV transmission. To determine the activation of AZT to its phosphorylated metabolites by placental cells, we characterized the intracellular phosphorylation of AZT in two major cell types of the placenta, namely trophoblasts and Hofbauer cells. Although phosphorylation of AZT in trophoblast and Hofbauer cells is 50- to 100-fold lower than that in human lymphocytic cell lines or activated lymphocytes, both cell types are capable of activating AZT to AZT triphosphate (AZTTP) at a level comparable to that of resting lymphocytes. We found that AZT monophosphate (AZTMP) was the major phosphorylated AZT metabolite, while AZT diphosphate (AZTDP) and AZTTP constituted less than 4% of the intracellular phosphorylated AZT pool. This result was independent of AZT concentration and exposure time in both types of placental cells. The rate-limiting step in the conversion of AZT to AZTTP was determined to be thymidylate kinase-catalyzed conversion of AZTMP to AZTDP. Trophoblasts and Hofbauer cells exhibited different time-course and concentration-dependent profiles of intracellular AZT phosphorylation, suggesting that these two placental cells may have anabolic or catabolic enzymes of different composition or efficiency. AZTTP decayed in both trophoblasts and Hofbauer cells with a half-life of 4-6 hr. These results should be useful in rationally designing AZT dosage regimens to treat HIV-infected women for prevention of maternal-fetal HIV transmission.
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PMID:Metabolism of 3'-azido-3'-deoxythymidine (AZT) in human placental trophoblasts and Hofbauer cells. 805 35

The T-cell line Jurkat E6-1 was rendered resistant to zidovudine (AZT) in vitro by exposure to low but gradually increased concentrations of the drug. Biochemical pharmacology studies of [3H]AZT in the AZT-resistant T-cell lines showed a significant reduction of AZT phosphorylation to the mono-, di-, and triphosphate anabolites. Peripheral blood mononuclear cells (PBMCs) from pediatric patients with human immunodeficiency virus type 1 (HIV-1) infection showed a similar pattern of decreased AZT anabolism. Enzymatic studies with purified thymidine kinase (TK) preparations from these cell lines showed a gradual decline in Vmax related to their level of resistance to AZT. The Jurkat/AZT-20 and Jurkat/AZT-100 cells were studied in greater detail with reverse transcriptase/polymerase chain reaction (RT/PCR) cloned probes to determine possible molecular mechanisms of resistance to AZT. TK mRNA was significantly decreased (approximately 5- to 10-fold) in the AZT-resistant T-cell lines. Southern blot analyses indicated that there were no major rearrangements or deletions of the TK gene, but the 5' end of the gene in the AZT-resistant cells is highly methylated when compared to wild-type cells. No apparent differences were seen in thymidylate kinase (dTMPk) mRNA levels in the same T-cell lines. Thus the decreased expression of TK mRNA and resultant TK enzymatic activity is responsible for the observed reduction in the AZT anabolism in the resistant T-cell lines. Decreased T-cell TK activity could allow wild-type, AZT-sensitive HIV-1 to replicate in the presence of subinhibitory AZT triphosphate (AZT-TP) cellular concentrations enabling a genetic variant with drug resistance to emerge and outgrow the AZT-sensitive, wild-type virus.
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PMID:Development of zidovudine (AZT) resistance in Jurkat T cells is associated with decreased expression of the thymidine kinase (TK) gene and hypermethylation of the 5' end of human TK gene. 854 39

Many antiviral drugs must be metabolized to their active form by cellular enzymes. Their antiviral activity may therefore be limited by an inefficient metabolism, leading to low intracellular concentration of the active form or to the accumulation of toxic intermediate metabolites. Gene transfer might be used to overcome such limitations by transducing a gene able to increase intracellular drug metabolism. To prove such a concept, we chose the well-studied paradigm of zidovudine (AZT) metabolism and anti-HIV activity. AZT-triphosphate is the active form of AZT, acting through inhibition of HIV reverse transcription. In human cells, the rate-limiting step for AZT phosphorylation is catalyzed by the thymidylate kinase. We thus tested the capacity of herpes simplex virus type 1 thymidine kinase, which possesses a thymidylate kinase activity, to improve AZT metabolism and antiviral activity. Our results show enhanced AZT phosphorylation in HSV-1 TK-expressing lymphoid and monoblastoid cells, which correlated with significantly improved antiviral activity against different strains of HIV-1. The antiviral activity of Foscarnet, another reverse transcriptase inhibitor that does not require phosphorylation, remained unchanged. These results suggest that gene transfer might be envisioned for genetic pharmacomodulation of antiviral drugs.
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PMID:Use of herpes simplex virus thymidine kinase to improve the antiviral activity of zidovudine. 928 20

Nucleosides and nucleoside analogs are anabolised to their triphosphates by intracellular kinases. The anti-HIV analogue zidovudine (AZT) is phosphorylated by cytosolic thymidine kinase 1 (TK1), thymidylate kinase (dTMPK), and nucleoside diphosphate kinase. It is known that dTMPK is one of the rate-limiting steps in the activation of zidovudine. The activities of TK1, dTMPK, and deoxycytidine kinase (dCK) were determined in extracts of in vitro activated peripheral blood mononuclear cells from HIV-infected patients and healthy noninfected individuals. dTMPK activity was 10-fold lower and TK1 activity was five-fold lower in extracts from infected as compared to uninfected persons. Deoxycytidine kinase activities in the extracts from both groups were very similar. Differences in in vitro activation, as determined by flow cytometry, of the peripheral lymphocytes were not responsible for the decreased TK1 and dTMPK activities. A reduced level of intracellular azido-dideoxythymidinetriphosphate in activated mononuclear cells from HIV-infected patients was also observed. The low levels of TK1 and dTMPK in lymphocytes from HIV-infected patients may be related to the anergy phenomenon observed as a result of HIV infection. This effect should also be considered in the development of new anti-HIV drugs.
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PMID:Decrease in thymidylate kinase activity in peripheral blood mononuclear cells from HIV-infected individuals. 974 77

Treatment of the human immunodeficiency virus (HIV) is restricted by therapeutic escape. The biological mechanisms of this chemoresistance rely notably on the modulation of cell kinase and P-glycoprotein (P-gp) expression. In this study, we investigated, in cynomolgus macaques, the roles of SHIV89.6P infection and of HAART in the mRNA expression of these cell factors. SHIV infection, or associated pathophysiological disorders, increase both thymidine kinase and thymidylate kinase mRNA expression and decrease those of P-gp. On the other hand, the expression of other cell kinases is not modulated. In parallel, HAART accentuates the decrease of P-gp expression and attenuates the increase of kinase expression. On the whole, such metabolic disorders, evidenced herein an animal model of HIV infection, could be involved in HIV-infected patients.
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PMID:[Evaluation of the effect of early and massive tritherapy on the expression of cellular factors potentially implicated in antiretroviral therapy resistance]. 1094 47

The 60-fold reduced phosphorylation rate of azidothymidine (AZT) monophosphate (AZTMP), the partially activated AZT metabolite, by human thymidylate kinase (TMPK) severely limits the efficacy of this anti-HIV prodrug. Crystal structures of different TMPK nucleotide complexes indicate that steric hindrance by the azido group of AZTMP prevents formation of the catalytically active closed conformation of the P-loop of TMPK. The F105Y mutant and a chimeric mutant that contains sequences of the human and Escherichia coli enzyme phosphorylate AZTMP 20-fold faster than the wild-type enzyme. The structural basis of the increased activity is assigned to stabilization of the closed P-loop conformation.
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PMID:Potentiating AZT activation: structures of wild-type and mutant human thymidylate kinase suggest reasons for the mutants' improved kinetics with the HIV prodrug metabolite AZTMP. 1107 9

Successive phosphorylation of nucleoside analog prodrugs to their triphosphate forms is required for the pharmacological activity of these compounds in the chemotherapeutic treatment of viral infections and cancer. Human thymidylate kinase (TMPK), apart from its essential physiological role in the biosynthesis of TTP, is also required for the activation of thymidine analogs, such as the clinically used anti-HIV prodrugs AZT and d4T. This enzyme is rate determining in the three-step cascade of AZT phosphorylation. Our structural work on human, yeast and E. coli TMPKs, in conjunction with sequence homology analyses and biochemical data, has demonstrated that three loops are crucial for the function of this enzyme: the first is the highly conserved P-loop motif, which binds and positions the phosphoryl groups of ATP, the second critical loop contains the DR(Y/H) motif that supplies a catalytic arginine and is also important for the binding and positioning of the magnesium ion complexed to ATP, and the third loop is the so-called Lid-region that is a flexible stretch which closes on ATP when it binds. Modifications of the sugar moieties of nucleoside monophosphates are shown to exert drastic effects on the enzyme's conformation and, thus, reduced activity. Our structural work on several TMPKs has formed the basis for generating mutants of human TMPK that are about 100 times more efficient in phosphorylating AZTMP. These enzyme variants could potentially be introduced into HIV-targeted cells in order to significantly improve AZT's antiviral activity.
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PMID:Structural requirements for efficient phosphorylation of nucleotide analogs by human thymidylate kinase. 1513 38

Nucleoside reverse transcriptase inhibitor (NRTI) treatment of HIV is associated with complications, including lipodystrophy (LD) and myopathy. Inhibition of mitochondrial DNA polymerase and depletion of mtDNA by NRTI triphosphates are believed to be key mechanisms in NRTI toxicity. Here, we determined the activities and mRNA levels of deoxynucleoside kinases (dNK) and 5'-nucleotidases (5'-NT) controlling the rate-limiting step in intracellular phosphorylation of NRTIs in cell models representing adipose, muscle tissue and peripheral blood cells using specific assays and Taqman RT-PCR. In vitro phosphorylation of 3'-azido-2',3'-dideoxythymidine (AZT) and 2',3'-didehydro-2',3'-dideoxythymidine (d4T) in extracts was also determined. 3T3-L1 adipocytes showed similar activity of mitochondrial thymidine kinase-2 (TK2) and deoxyguanosine kinase (dGK) but 3- to 36-fold lower levels of cytosolic deoxycytidine kinase (dCK), thymidine kinase-1 (TK1) and thymidine monophosphate kinase (TMPK) and higher levels of deoxyribonucleotidase activity compared to proliferating 3T3-L1. dCK, dGK and TK2 activities correlated with their mRNA levels in proliferating, resting and differentiating 3T3-L1. Differentiated L6 myoblasts had lower activities of cytosolic dNK's and TMPK, higher dGK and similar TK2 and deoxyribonucleotidases (dNT) activities compared to proliferating myoblasts. TK2 was the limiting dNK activity while dGK was predominant in adipocytes and myocytes. Activity profiles revealed limited capacity to phosphorylate dThd and dCyd in adipocytes and myocytes compared to proliferating cells and CEM lymphocytes. Phosphorylation of AZT and d4T was low in adipocytes and myocytes, and the presence of these analogs inhibited the phosphorylation of dThd by TK2 suggesting that mitochondrial toxicity of some NRTIs in adipocytes and myocytes is due to the depletion of normal mitochondrial dNTP pools.
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PMID:Activity profiles of deoxynucleoside kinases and 5'-nucleotidases in cultured adipocytes and myoblastic cells: insights into mitochondrial toxicity of nucleoside analogs. 1574 6


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