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Query: EC:2.7.7.49 (
reverse transcriptase
)
31,746
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
While many point mutations in the HIV-1
reverse transcriptase
(RT) confer resistance to antiretroviral drugs, inserts or deletions in this gene have not been previously characterized. In this report, 14 RT inhibitor-treated patients were found to have HIV-1 strains possessing a 6-basepair insert between codons 69 and 70 of the RT gene. Known drug resistance mutations were also observed in these strains, with T215Y appearing in all strains. Genotypic analysis indicated that the inserts had substantial nucleotide variability that resulted in relatively restricted sets of amino acid sequences. Linkage of patients' treatment histories with longitudinal sequencing data showed that insert strains appeared during drug regimens containing
ddI
or ddC, with prior or concurrent AZT treatment. Drug susceptibility tests of recombinant patient isolates showed reduced susceptibility to nearly all nucleoside RT inhibitors. Site- directed mutagenesis studies confirmed the role of the inserts alone in conferring reduced susceptibility to most RT inhibitors. The addition of AZT-associated drug resistance mutations further increased the range and magnitude of resistance. These results establish that inserts, like point mutations, are selected in vivo during antiretroviral therapy and provide resistance to multiple nucleoside analogs.
...
PMID:A 6-basepair insert in the reverse transcriptase gene of human immunodeficiency virus type 1 confers resistance to multiple nucleoside inhibitors. 981 61
HIV-1
reverse transcriptase
(RT) is a key enzyme involved in the replication of the virus and is a potential target for therapeutic intervention following infection. Several drugs that inhibit the enzyme from acting have been discovered. These include nucleoside-analogue inhibitors such as AZT (zidovudine),
ddI
and ddC, and non-nucleoside inhibitors such as nevirapine and delavirdine. All of them, however have been found to be of limited clinical utility because the RT becomes rapidly resistant to them on account of point mutations in the enzyme. One way to partly overcome this limitation is to design an inhibitor that has interactions mainly with the backbone and the conserved residues of RT. Using a rational drug-design approach based on the high resolution X-ray crystal structure of the RT-nevirapine complex (1), and the specific design principles of peptides containing dehydro-Alanine (deltaAla) generated by our theoretical calculations, we present here the design of a peptide inhibitor of RT. Energy minimization and molecular modeling of the interaction of the designed pentapeptide with the nevirapine-binding site indicate that the inhibitor has 60% of its interactions with the conserved regions of RT as compared to 30% in the case of nevirapine, thus making it much less sensitive to mutations in the enzyme.
...
PMID:A peptide inhibitor of HIV-1 reverse transcriptase using alpha,beta-dehydro residues: a structure-based computer model. 983 73
The presence of human immunodeficiency virus type 1 (HIV-1) bearing mutations resistant to nucleosidic inhibitors of the viral
reverse transcriptase
(RT) derived from HIV-seropositive asymptomatic and untreated volunteer blood donors was examined. The RT amplicons of 32 specimens were analyzed by using a reverse hybridization line probe assay technique that detects resistance against zidovudine (3'-azido-3'-deoxythymidine [AZT], didanosine (2',3'-dideoxyinosine [
ddI
], zalcitabine (2',3'-dideoxycytidine [ddC]), and lamivudine ((-)-beta-L-2',3'-dideoxy-3'-thiacytidine [3TC]) at amino acid positions 41, 69, 70, 74, 184, and 215 of the HIV RT. One sample (brp004, subtype B) showed an AZT resistance secondary mutation at position K70R. Fifteen specimens revealed one or more sites of nonreactivity to both wild-type- and mutant-specific probes (dual nonreactivity). Samples were also submitted to RT direct sequencing and phylogenetic analysis. Nine of 32 specimens belonged to non-B subtypes (C, D, F, and F/B or B/F mosaics). Three of these non-B isolates, named brp004, brp063, and brp069, revealed three other relevant AZT resistance mutations-a T215F mutation and two M41L mutations, respectively-hidden by the nonreactivity to line probe assay strips on the respective codon regions. The isolate brp004 also carried a D67N AZT resistance mutation revealed by direct sequencing. No nonnucleosidic RT inhibitor-resistant mutation was found. The analysis revealed a frequency of 2.26 x 10(-4) mutations per nucleotide for independent samples related to RT resistance. These findings emphasize the magnitude of naturally occurring reservoirs of drug-resistant virus among untreated HIV-1-positive individuals in Brazil.
...
PMID:Sequence diversity of the reverse transcriptase of human immunodeficiency virus type 1 from untreated Brazilian individuals. 1039 Feb 21
We report on the frequency of genetic mutations associated with drug resistance in antiretroviral treatment-naive patients from Martinique (French West Indies), where zidovudine (ZDV) has been available since 1987 and where combination therapy developed simultaneously with its use in continental France. Genotypic resistance was studied in plasma HIV RNA from samples collected between 1988 and 1998 from 70 antiretroviral-naive study subjects, half presenting with either primary infection or documented seroconversion. A line probe assay (LIPA) was used to detect substitutions on the
reverse transcriptase
(RT) codons 41, 69, 70, 74, 184, and 215. Direct sequencing was used to complete the data for RT codons which were uninterpretable by LIPA. Of these patients, 17 harbored mutated viruses with one or more mutations in the RT gene codons analyzed. ZDV resistance mutations T215Y/F, M41L, and K70R were found in 2, 5, and 12 individuals, respectively. Mutant strains L74V (didanosine [
ddI
] and dideoxycytidine [ddC]) were detected in 3 patients and M184V (lamivudine/
ddI
/ddC) in 4 patients. However, pure mutant results at one or more codons of interest were observed in only 5 (7%; 95% confidence interval [CI], 1%-13%) patients, all involving ZDV resistance. One carried both mutations T215Y and M41L known to confer a high degree of phenotypic resistance to ZDV. Among a subgroup of 28 patients with a timepoint of infection after 1995, 24 [86%; approximately 95% CI, 73%-99%) presented with a wild-type pattern. The significance of the high prevalence of mixed patterns observed in drug-naive patients remains unclear. However, the frequency of primary mutant genotypes associated with high levels of drug resistance is low in Martinique and in this study we did not observe any currently increased tendency in this frequency.
...
PMID:Drug resistance mutations among HIV-1 strains from antiretroviral-naive patients in Martinique, French West Indies. 1063 3
Substitution of particular residues postulated to have a role in active site architecture can alter the overall fidelity of DNA polymerization by HIV-1. The effects of this kind of substitution were determined in a lacZ-based assay using HIV-1
reverse transcriptase
with specifically mutated residues. We found that the reported higher fidelity of nucleotide incorporation by the Met184-->Val and Glu89-->Gly mutant reverse transcriptases (RTs) was not reflected in a substantial increase in the overall fidelity for these RT mutants. For the 3TC-resistant Met184-->Val RT mutant an almost wild-type level of overall mutation frequency was observed, while the foscarnet-resistant RTs harbouring the Glu89-->Gly mutation showed only a twofold decrease in mutation frequency. The Tyr183-->Phe mutant RT displayed a slightly lower fidelity than wild-type RT. Conversely, the
ddI
-resistant RT mutant containing the Leu74-->Val mutation showed a 3.5-fold higher fidelity compared to the wild-type enzyme. Finally, the Tyr115-->Ala substitution rendered the enzyme substantially more error-prone for DNA polymerization. These results correlate with three-dimensional structural studies of the polymerase active site and confirm the postulated impact of the Leu74, Tyr183 and Tyr115 RT residues on the overall fidelity of DNA polymerization by HIV-1 RT.
...
PMID:Fidelity analysis of HIV-1 reverse transcriptase mutants with an altered amino-acid sequence at residues Leu74, Glu89, Tyr115, Tyr183 and Met184. 1078 87
Genotypes that confer drug resistance to
reverse transcriptase
inhibitors and protease inhibitors were evaluated in HIV-1 proviral DNA obtained from peripheral blood mononuclear cell samples. Fifty-three HIV-1-infected patients were studied, 19 of whom had not received antiretroviral treatment. In the other 34 patients, 9 had been treated with combinations of two
reverse transcriptase
inhibitors (AZT,
ddI
, d4T, 3TC) and 25 had been treated with triple antiretroviral therapy including a protease inhibitor (nelfinavir, indinavir, saquinavir, ritonavir). To determine the presence of mutations involved in the development of resistance to
reverse transcriptase
inhibitors a hybridization Microtiter assay was carried out. Mutations were detected in treated patients as well as in those without previous antiretroviral treatment, with the most frequent mutations being those that confer resistance to AZT, followed by those that develop cross-resistance to
ddI
/ddC and 3TC, which are the most commonly used drugs to date. No mutations were detected to any nucleoside analog in only 13 cases. To analyze the presence of mutations in the protease gene a dot-blot hybridization was carried out which included the mutations in codons 36, 82 and 90. Mutation 82 was detected in one case. Therefore, with the aim of determining the pattern of genotypic mutations in patients infected with HIV-1 and in order to make the best therapeutic choice, it would be recommended to consider carrying out genotypic resistance assays in clinical practice.
...
PMID:[Evaluation of mutations that confer resistance to nucleoside analogs and protease inhibitors in HIV-1-infected patients. Study Group on Resistance to Antiretroviral Agents]. 1085 10
Human immunodeficiency virus type 1 (HIV-1) isolates resistant to (-)-beta-D-dioxolane-guanosine (DXG), a potent and selective nucleoside analog HIV-1
reverse transcriptase
(RT) inhibitor, were selected by serial passage of HIV-1(LAI) in increasing drug concentrations (maximum concentration, 30 microM). Two independent selection experiments were performed. Viral isolates for which the DXG median effective concentrations (EC(50)s) increased 7.3- and 12.2-fold were isolated after 13 and 14 passages, respectively. Cloning and DNA sequencing of the RT region from the first resistant isolate identified a K65R mutation (AAA to AGA) in 10 of 10 clones. The role of this mutation in DXG resistance was confirmed by site-specific mutagenesis of HIV-1(LAI). The K65R mutation also conferred greater than threefold cross-resistance to 2',3'-dideoxycytidine, 2', 3'-dideoxyinosine, 2',3'-dideoxy-3'-thiacytidine, 9-(2-phosphonylmethoxyethyl)adenine, 2-amino-6-chloropurine dioxolane, dioxolanyl-5-fluorocytosine, and diaminopurine dioxolane but had only marginal effects on 3'-azido-3'-deoxthymidine (AZT) susceptibility. However, when introduced into a genetic background for AZT resistance (D67N, K70R, T215Y, T219Q), the K65R mutation reversed the AZT resistance. DNA sequencing of RT clones derived from the second resistant isolate identified the L74V mutation, previously reported to cause
ddI
resistance. The L74V mutation also decreased the AZT resistance when the mutation was introduced into a genetic background for AZT resistance (D67N, K70R, T215Y, T219Q) but to a lesser degree than the K65R mutation did. These findings indicate that DXG and certain 2',3'-dideoxy compounds (e.g.,
ddI
) can select for the same resistance mutations and thus may not be optimal for use in combination. However, the combination of AZT with DXG or its orally bioavailable prodrug (-)-beta-D-2, 6-diaminopurine-dioxolane should be explored because of the suppressive effects of the K65R and L74V mutations on AZT resistance.
...
PMID:In vitro selection of mutations in the human immunodeficiency virus type 1 reverse transcriptase that decrease susceptibility to (-)-beta-D-dioxolane-guanosine and suppress resistance to 3'-azido-3'-deoxythymidine. 1085 31
Genotypes that confer drug resistance to
reverse transcriptase
inhibitors and protease inhibitors were evaluated in HIV-1 proviral DNA obtained from peripheral blood mononuclear cell samples. Fifty-three HIV-1-infected patients were studied, 19 of whom had not received antiretroviral treatment. In the other 34 patients, 9 had been treated with combinations of two
reverse transcriptase
inhibitors (AZT,
ddI
, d4T, 3TC) and 25 had been treated with triple antiretroviral therapy including a protease inhibitor (nelfinavir, indinavir, saquinavir, ritonavir). To determine the presence of mutations involved in the development of resistance to
reverse transcriptase
inhibitors a hybridization Microtiter assay was carried out. Mutations were detected in treated patients as well as in those without previous antiretroviral treatment, with the most frequent mutations being those that confer resistance to AZT, followed by those that develop cross-resistance to
ddI
/ddC and 3TC, which are the most commonly used drugs to date. No mutations were detected to any nucleoside analog in only 13 cases. To analyze the presence of mutations in the protease gene a dot-blot hybridization was carried out which included the mutations in codons 36, 82 and 90. Mutation 82 was detected in one case. Therefore, with the aim of determining the pattern of genotypic mutations in patients infected with HIV-1 and in order to make the best therapeutic choice, it would be recommended to consider carrying out genotypic resistance assays in clinical practice.
...
PMID:[Evaluation of mutations that confer resistance to nucleoside analogs and protease inhibitors in HIV-1-infected patients] 1087 23
3'-Azido-2',3'-dideoxythymidine (AZT, 1, zidovudine, RetrovirTM) is used to treat patients with human immunodeficiency virus (HIV) infection. AZT, after conversion to AZT-5'-triphosphate (AZT-TP) by cellular enzymes, inhibits HIV-
reverse transcriptase
(HIV-RT). The major clinical limitations of AZT are due to clinical toxicities that include bone marrow suppression, hepatic abnormalities and myopathy, absolute dependence on host cell kinase-mediated activation which leads to low activity, limited brain uptake, a short half-life of about one hour in plasma that dictates frequent administration to maintain therapeutic drug levels, low potential for metabolic activation and/or high susceptibility to catabolism, and the rapid development of resistance by HIV-1. These limitations have prompted the development of strategies for designing prodrugs of AZT. A variety of 5'-O-substituted prodrugs of AZT constitute the subject of this review. The drug-design rationale on which these approaches are based is that the ester conjugate will be converted by hydrolysis and/or enzymatic cleavage to AZT or its 5′-monophosphate (AZT-MP). Most prodrug derivatives of AZT have been prepared by derivatization of AZT at its 5'-O position to provide two prominent classes of compounds that encompass: A) 5'-O-carboxylic esters derived from 1) cyclic 5'-O-carboxylic acids such as steroidal 17b-carboxylic acids, 1-adamantanecarboxylic acid, bicyclam carboxylic acid derivatives, O-acetylsalicylic acid, and carbohydrate derivatives, 2) amino acids, 3) 1, 4-dihydro-1-methyl-3-pyridinylcarboxylic acid, 4) aliphatic fatty acid analogs such as myristic acid containing a heteroatom, or without a heteroatom such as stearic acid, and 5) long chain polyunsaturated fatty acid analogs such as retinoic acid, and B) masked phosphates such as 1) phosphodiesters that include monoalkyl or monoaryl phosphate, carbohydrate, ether lipid, ester lipid, and foscarnet derivatives, 2) a variety of phosphotriesters that include dialkylphosphotriesters, diarylphosphotriesters, glycolate and lactate phosphotriesters, phosphotriester approaches using simultaneous enzymatic and chemical hydrolysis of bis(4-acyloxybenzyl) esters, bis(S-acyl-2-thioethyl) (SATE) esters, cyclosaligenyl prodrugs, glycosyl phosphotriesters, and steroidal phosphotriesters, 3) phosphoramidate derivatives, 4) dinucleoside phosphate derivatives that possess a second anti-HIV moiety such as AZT-P-ddA, AZT-P-
ddI
, AZTP2AZT, AZTP2ACV), and 5) 5'-hydrogen phosphonate and 5'-methylene phosphonate derivatives of AZT. In these prodrugs, the conjugating moiety is linked to AZT via a 5'-O-ester or 5'-O-phosphate group. 5'-O-Substituted AZT prodrugs have been designed with the objectives of improving anti-HIV activity, enhancing blood-brain barrier penetration, modifying pharmacokinetic properties to increase plasma half-life and improving drug delivery with respect to site-specific targeting or drug localization. Bypassing the first phosphorylation step, regulating transport and conferring sustained release of AZT prolong its duration of action, decrease toxicity and improve patient acceptability. The properties of these prodrugs and their anti-HIV activities are now reviewed.
...
PMID:Novel approaches for designing 5'-O-ester prodrugs of 3'-azido-2', 3'-dideoxythymidine (AZT). 1091 Oct 16
Recently, d4T/
ddI
combination has been associated with the selection of thymidine analogue mutations (TAMs) in 50% of patients with a detectable viral load after 6 to 12 months of this bi-therapy (ALBI, STADI and BMS A1460 tests). We evaluated the rate of selection of the TAMs in naive patients with a viral load of > 200 copies/mL after: 6 months to 1 year of d4T/3TC bi-therapy (group 1); 1 year or more of a treatment including d4T/3TC (group 2); and more than 6 months of tri-therapy including d4T/
ddI
(group 3). The
reverse transcriptase
gene has ben studied in 33 patients in group 1, 17 patients in group 2 and ten patients in group 3. For the latter patients, the tri-therapies were as follows: d4T/
ddI
/PI (n = 5), d4T/
ddI
/NNRTI (n = 4), d4T/
ddI
/NRTI (n = 1). For the group 1 patients, at baseline, two patients already had TAMs. At M6, all the patients acquired the 3TC-associated mutations, M184V. Only one patient selected a MDR mutation profile (F116Y, Q151M). At M12, 26 of 33 plasmas were analysed. Only one patient selected one TAM (T215Y). For the group 2 patients, only three patients selected TAMs after more than 30 months of treatment. For the group 3 patients, at baseline, only one patient already harbored TAMs. None of the other patients had selected TAMs. In patients who received d4T/
ddI
/3TC, only the M184V, the 3TC-associated mutation, was selected. In conclusion, stavudine in association with 3TC selected a low rate of TAMs; in patients receiving a treatment including d4T/3TC, time of exposure to stavudine seemed to be an important parameter for the selection of TAMs; and in contrast to results obtained on d4T/
ddI
, tri-therapies including d4T/
ddI
did not select any TAMs, whatever the combination (NRTI, NNRTI, PI).
...
PMID:[Conditions of "thymidine analog mutations" (TAMs) in naive patients treated with different combinations of d4T]. 1094 50
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