Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:2.7.1.21 (thymidine kinase)
 7,561 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Didanosine (ddI) is used in the treatment of HIV-1 infection alone and in combination with azidothymidine (AZT). When combined with AZT, patients exhibit improved patterns of surrogate markers after sequential combination regimens of ddI and AZT compared to either drug monotherapy. We have investigated the biochemical mechanism(s) of this synergistic drug combination in human PBMC cells and in human T-cell lines sensitive and resistant to AZT due to lack of thymidine kinase (TK). DdI is preferentially activated to its triphosphate anabolite, ddATP, at 3:1 ratio in human T-lymphocytes compared to monocytes from the same individual. There are no apparent differences in the intracellular concentrations of ddATP in Jurkat/0 and Jurkat/AZT-10, an AZT resistant human T-cell line, when ddI is administered alone or in combination with AZT, hence there appears to be a case of collateral sensitivity. Intracellular increases of AZTTP concentrations in patient's PBMC cells have been determined clinically after AZT alone and in a combination regimen with ddI. A stochastic biochemical model has been developed that estimates the velocity of HIV-RT under uninhibited and inhibited conditions by the active anabolites, AZTTP and ddATP. This model provides a rational explanation for the greater inhibition of HIV-RT in the presence of both inhibitors, AZTTP and ddATP, as compared to the presence of either anabolite triphosphate alone. Expanding this model to describe the inhibition of HIV-RT in the presence of three competitive inhibitors, AZTTP, ddATP and 3TCTP demonstrated that the presence of these HIV-RT inhibitors resulted in an even greater inhibition of this viral enzyme necessary for HIV integration and replication. Hence, a more effective inhibition of HIV-RT enzyme is achieved by the combination of the three drugs, AZT, ddl and 3TC. In an effort to verify this model with experimental data the kinetics of HIV-RT were studied in the absence and after inhibition by AZTTP or ddATP alone, both AZTTP + ddATP or AZTTP + ddATP + 3TCTP. Treatment of HIV-RT with high concentrations of these triphosphate inhibitors, as high as 3Kis, inhibited this enzyme to greater than 90% of untreated control. However, a small percentage of residual HIV-RT, 6%, was uninhibited even after exposure to 3Ki concentrations of each inhibitor. These studies strongly suggested that: 1) AZT plus ddI or AZT plus ddI plus 3TC are synergistic at the active anabolite level against HIV-RT; 2) the combination of the three nucleoside analog drugs (AZT, ddI 3TC) is needed for more effective inhibition of HIV-RT; 3) that the combination of the triphosphates at concentrations much greater than those pharnacologically achieved in T-Cells or PBMC under treatment conditions did not inhibit completely HIV-RT. Hence, the three nucleoside HIV-RT inhibitors must be combined with other classes of antiviral drugs or T-cell specific inhibitor drugs.
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PMID:Pharmacodynamic studies (PD) of didanosine (ddI) alone and in combination with azidothymidine (AZT) in human T-cells; a stochastic biochemical approach to antiretroviral nucleoside drug combination in inhibiting HIV-reverse transcriptase (RT). 1090 70

Long-term treatment of HIV-1 infected patients with antiretroviral agents may result in failure of therapy due to the emergence of resistant virus mutants with decreased susceptibility to the therapeutic agents. Several authors have asked whether cellular factors, other than viral mutation may contribute to the declining efficiency of chemotherapy including nucleoside analogues and protease inhibitors (PI). Prolonged treatment with AZT may induce a defect of thymidine kinase activity in vitro and in vivo. Long-term treatment with other nucleoside analogues, such as d4T and 3TC, is also able to induce in host cells, a decreased sensitivity to the antiviral activity of these compounds. It is suggested that antiviral activity of PI could be modified by the expression of a protein P-gp that has been demonstrated to be able to bind PI and is involved in extrusion of anticancer agents.
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PMID:Cellular factors involved in the induction of resistance of HIV to antiretroviral agents. 1109 Oct 62

The biological evaluation of mononucleotide prodrugs (pronucleotides) of various nucleoside reverse transcriptase inhibitors (NRTIs) such as zidovudine (AZT), zalcitabine (ddC) and lamivudine (3TC) was reported in human T-lymphoid MOLT-4/8 cells which were grown continuously for more than 1 year in a medium containing cytarabine (Ara-C). In this cell line, expression of deoxycytidine kinase (dCK) and thymidine kinase 1 (TK1) was decreased in comparison to parental cells (3.8 and 2.9-fold, respectively). The lower mRNA level of TK1 correlated significantly with lower enzyme activity, whereas no dCK activity was detectable. In Ara-C-resistant cells, anti-HIV-1 effects of ddC, 3TC and AZT were more than 100-fold lower compared with parental cells. In contrast, the corresponding mononucleoside phosphotriesters bearing S-acyl-2-thioethyl (SATE) groups as biolabile phosphate protection retained anti-HIV-1 activity due to their ability to bypass the first monophosphorylation step catalyzed by dCK or TK1. The results demonstrate that in vitro selection of T-lymphoid cells in the presence of Ara-C results in cross-resistance to deoxycytidine (ddC, 3TC) and thymidine (AZT) analogs and that these cellular resistance mechanisms can be bypassed by the use of bis(SATE) pronucleotides.
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PMID:S-acyl-2-thioethyl (SATE) pronucleotides are potent inhibitors of HIV-1 replication in T-lymphoid cells cross-resistant to deoxycytidine and thymidine analogs. 1175 Sep 40

Mother-to-child transmission of the human immunodeficiency virus is substantially reduced by prenatal and postnatal treatment with anti-retroviral nucleoside analogues; however, the long-term consequences of these drug interventions are not known. The nucleoside analogue zidovudine (3'-azido-2',3'-dideoxythymidine; AZT) is carcinogenic in mice when administered transplacentally or neonatally, and this may be due to a genotoxic mechanism. Since single-drug treatment with AZT is being superseded by multidrug combinations, we have investigated the induction of mutations and micronuclei in mice treated neonatally with AZT, lamivudine (3'-thia-2',3'-dideoxycytidine; 3TC), or a combination of the two drugs. B6C3F(1)/Tk+/- mice were treated daily from days 1-8 of age with 200 mg AZT/kg/day, 200 mg 3TC/kg/day, or a mixture of 200 mg AZT + 200 mg 3TC/kg/day (AZT/3TC). One and 2 days after the last dose, bone marrow was collected to assess the induction of micronuclei in polychromatic erythrocytes; 3 weeks following treatment, the induction of mutants was determined in the hypoxanthine-guanine phosphoribosyltransferase (Hprt) and thymidine kinase (Tk) genes of spleen lymphocytes. AZT and AZT/3TC, but not 3TC, caused a significant increase in micronuclei, with the response being greatest one day after the last dose. None of the drugs induced mutations in the Hprt gene, while AZT and AZT/3TC, but not 3TC, caused a significant increase in the Tk mutant frequency. The increase in Tk mutants by AZT and AZT/3TC was associated with loss of the wild-type (Tk+) allele (loss of heterozygosity). These data suggest that AZT, but not 3TC, is genotoxic in neonatal mice, and that 3TC does not alter significantly the responses observed with AZT alone.
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PMID:Frequency of Tk and Hprt lymphocyte mutants and bone marrow micronuclei in B6C3F(1)/Tk+/- mice treated neonatally with zidovudine and lamivudine. 1218 83

(-)-(2R,4R)-1-(2-Hydroxymethyl-1,3-dioxolan-4-yl)thymine (DOT) is the first thymidine kinase-activated nucleoside that is significantly active against all of the clinically significant NRTI-resistant HIV-1 mutants, including AZT (D67N/K70R/T215Y/K219Q), Tenofovir (K65R), and Lamivudine (M184V). To understand the molecular mechanism of drug resistance and the antiviral activity of DOT against drug-resistant RTs, molecular modeling studies of DOT-TP complexed with the wild-type (WT) and mutated RT were conducted. The key reason for this interesting antiviral activity profile is the presence of a dioxolane ring.
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PMID:Anti-HIV activity of (-)-(2R,4R)-1- (2-hydroxymethyl-1,3-dioxolan-4-yl)-thymine against drug-resistant HIV-1 mutants and studies of its molecular mechanism. 1594 70

As a general rule, enzymes act on only one enantiomer of a chiral substrate and only one of the enantiomeric forms of a chiral molecule may bind effectively at the catalytic site, displaying biological activity. In recent years, some exceptions have been found among viral and cellular enzymes involved in the synthesis of deoxynucleoside triphosphates and in their polymerisation into DNA. Examples are: herpes virus thymidine kinases, cellular deoxycytidine kinase and deoxynucleotide kinases, human immunodeficiency virus type 1 (HIV-1) reverse transcriptase, hepatitis B virus (HBV) DNA polymerase and, to a lesser extent, some cellular DNA polymerases. The lack of enantioselectivity allows herpes simplex virus (HSV) thymidine kinase and cellular deoxycytidine kinase to phosphorylate the unnatural L-beta-enantiomers of D-thymidine and D-deoxycytidine, respectively, or of their analogues to monophosphate. This phosphorylation represents the first and often the rate-limiting step of their activation to triphosphates. The L-triphosphates can then exert antiviral (anti-HSV, anti-Human cytomegalovirus, anti-HIV-1, anti-HBV) and anticancer activities. Although only one L-nucleoside (3TC) has so far gained United States of America Food and Drug Administration (USA FDA) approval for clinical use against HIV-1, other L-enantiomers of nucleoside analogues, which have shown antiviral or anticancer activity in cell cultures are in clinical trials. Their resistance to enantioselective enzymes, such as thymidine phosphorylase, thymidylate synthase, (deoxy)-cytidine and dCMP deaminases, and their lower affinity for the mitochondrial thymidine kinase can ensure a higher selectivity and lower cytotoxicity with respect to those exerted by their corresponding natural D-enantiomers and might be exploited to solve problems arising during chemotherapy, such as metabolic inactivation, cytotoxicity and drug-resistance.
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PMID:Molecular basis for the antiviral and anticancer activities of unnatural L-beta-nucleosides. 1599 31

In previous studies, we have shown that zidovudine (3'-azido-3'-deoxythymidine; AZT), but not lamivudine [(-)2',3'-dideoxy-3'-thiacytidine; 3TC], is genotoxic when administered to neonatal mice, and that 3TC when coadministered with AZT does not alter the responses observed with AZT alone (Von Tungeln et al. [2002] Carcinogenesis 23:1427-1432). We now have investigated the transplacental transfer of these drugs and the induction of mutants and micronuclei in the neonatal offspring. From gestational day 12 until parturition, female C57BL/6N and C57BL/6N/Tk(+/-) mice, which had been mated to male C3H/HeNMTV mice, were treated daily by gavage with AZT, 3TC, or a combination of AZT and 3TC. In both dams and fetuses, AZT was found at much higher levels than its metabolites, AZT 5'-glucuronide and 3'-azido-3'-deoxythymidine. In the neonates, AZT and the mixture of AZT and 3TC caused a decrease in the percentage of reticulocytes (RETs) and an increase in the percentage of micronucleated RETs and micronucleated normochromatic erythrocytes. When assessed 3 weeks after birth, AZT and the combination of AZT and 3TC increased the thymidine kinase (Tk) mutant frequency in male mice; at 5 weeks, 3TC increased the Tk mutant frequency in female mice. The increase in Tk mutants in mice treated with AZT and the mixture of AZT and 3TC was associated with loss of the wild-type (Tk(+)) allele (loss of heterozygosity; LOH) and a pattern of discontinuous LOH. These data indicate that AZT, 3TC, and the combination of AZT and 3TC are transplacental mutagens and that the increase in mutants resulting from AZT is due mainly to large-scale genetic alterations.
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PMID:Transplacental drug transfer and frequency of Tk and Hprt lymphocyte mutants and peripheral blood micronuclei in mice treated transplacentally with zidovudine and lamivudine. 1685 Apr 53

A human T-lymphoblastoid cell line that is resistant to the antiviral activity of zidovudine (ZDV) and moderately resistant to lamivudine (3TC) has been obtained as a result of prolonged treatment with a combination of three nucleoside analogues (NA), ZDV, 3TC, and abacavir (ABV). These cells, called CEM(ZLA), are fully sensitive to ABV. The cellular resistance of the CEM(ZLA) cells to ZDV correlates with significant reductions in thymidine kinase (TK) activity and in the amount of intracellular TK protein. Interestingly, the reduction in TK activity led to impairment of the ability of CEM(ZLA) to accumulate the triphosphate metabolite of ZDV. However, the moderately 3TC-resistant phenotype of CEM(ZLA) cannot be ascribed to a similar reduction in deoxycytidine kinase activity. Compared to the parental CEM cells, CEM(ZLA) cells express a high level of multidrug resistance protein 4 (MRP4), which could reduce the intracellular concentration of 3TC. This study shows that the exposure of cells to a combination of NAs is capable of simultaneously affecting more than one target site to confer resistance and that NAs display differing abilities to select cellular resistance mechanisms.
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PMID:The effects of prolonged treatment with zidovudine, lamivudine, and abacavir on a T-lymphoblastoid cell line. 1706 65

Experiments were performed to investigate the impact of didanosine (ddI), lamivudine (3TC), and stavudine (d4T) on cell survival and mutagenicity in two reporter genes, hypoxanthine-guanine phosphoribosyltransferase (HPRT) and thymidine kinase (TK), using a cell cloning assay for assessing the effects of individual nucleoside analogs (NRTIs)/drug combinations in human TK6 B-lymphoblastoid cells. Three-day treatments with 0, 33, 100, or 300 microM ddI, 3TC, or ddI-3TC produced positive trends for increased HPRT and TK mutant frequencies. While dose-related trends were too small to reach significance after treatments with d4T or d4T-3TC, pairwise comparisons with control cells indicated that exposure to 100 microM d4T or d4T-3TC caused significant elevations in HPRT mutants. Measurements of mutagenicity in cells exposed to d4T (or d4T-3TC) were complicated by the cytotoxicity of this NRTI. Enhanced increases in mutagenic responses to combined NRTI treatments, compared with single drug treatments, occurred as additive to synergistic effects in the HPRT gene of cells exposed to 100 microM ddI-3TC or 100 microM d4T-3TC, and in the TK gene of cells exposed to 100 or 300 microM ddI-3TC. Comparisons of these data to mutagenicity studies of other NRTIs in the same system (Meng Q et al. [2000c]: Proc Natl Acad Sci USA 97:12667-126671; Torres SM et al. [2007]: Environ Mol Mutagen) indicate that the relative mutagenic potencies for all drugs tested to date are: AZT-ddI > ddI-3TC > AZT-3TC congruent with AZT-3TC-ABC (abacavir) > AZT >/=ddI > d4T-3TC > 3TC > d4T >/= ABC. These collective data suggest that all NRTIs with antiviral activity against HIV-1 may cause host cell DNA damage and mutations, and impose a cancer risk.
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PMID:Relative mutagenic potencies of several nucleoside analogs, alone or in drug pairs, at the HPRT and TK loci of human TK6 lymphoblastoid cells. 1735 29

Experiments were performed to investigate the impact of zidovudine (AZT), lamivudine (3TC), and abacavir (ABC) on cell survival and mutagenicity in two reporter genes, hypoxanthine-guanine phosphoribosyltransferase (HPRT) and thymidine kinase (TK), using cell cloning assays for assessing the effects of individual drugs/drug combinations in (1) TK6 human lymphoblastoid cells exposed in vitro and (2) splenic lymphocytes from male CD-1 mice exposed transplacentally on days 12-18 of gestation. In TK6 cells, dose-related increases in HPRT and TK mutant frequencies were found following 3 days of exposure to AZT or 3TC alone (33, 100, or 300 microM), or to equimolar amounts of AZT-3TC. Compared with single drug exposures, AZT-3TC coexposures generally yielded enhanced elevations in HPRT and TK mutant frequencies. Mutagenicity experiments with ABC alone, or in combination with AZT-3TC, were complicated by the extreme cytotoxicity of ABC. Exposure of cells either to relatively high levels of AZT-3TC short-term (100 microM, 3 days), or to peak plasma-equivalent levels of AZT-3TC for an extended period (10 microM, 30 days), resulted in similar drug-induced mutagenic responses. Among sets of mice necropsied on days 13, 15, or 21 postpartum, Hprt mutant frequencies in T-cells were significantly elevated in the AZT-only (200 mg/kg bw/day) and AZT-3TC (200 mg AZT + 100 mg 3TC/kg bw/day) groups at 13 days of age. These results suggest that the mutagenicity by these nucleoside analogs is driven by cumulative dose, and raises the question of whether AZT-3TC has greater mutagenic effects than AZT alone in perinatally exposed children.
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PMID:Mutagenicity of zidovudine, lamivudine, and abacavir following in vitro exposure of human lymphoblastoid cells or in utero exposure of CD-1 mice to single agents or drug combinations. 1735 33


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