Abstract
The purpose of this study was to recognize nucleoside reverse transcriptase inhibitor (NRTI)-resistant HIV-1 strains among a group of therapy-naive patients, and subsequently to guide the choice of antiretroviral therapy. HIV strains present in sera of 128 antiretroviral therapy-naive patients were tested for NRTI resistance-associated mutations. The RT-PCR amplified HIV rt regions were analyzed with an INNI-LiPA-HIV-1 RT assay. The number and pattern of resistance-associated mutated codons were determined and interpreted as resistance to particular drugs. Mutated codons were detected in 66 (51.5%) out of 128 tested samples. In 54 (81.8%) out of 66 samples, a K70R mutation was identified, which was followed by an M184V mutation in 22 cases (33.3%). For a majority of these samples, mixed wild/mutant populations were recognized in 44 (66.6%) cases. The interpretation of hybridization data revealed drug-resistant strains in 37 (28.9%) out of all samples tested. The determined resistance to particular drugs was as follows: 20 strains were resistant to zidovudine (ZDV), ten to lamivudine (3TC) and six to didanosine (ddI)/zalcitabine (ddC)/abacavir (ABC). In one case, a ZDV/3TC-resistant HIV strain was found. The prevalence of mutations associated with NRTI resistance was high in the tested cohort. The key reasons for that were most probably needle and drug sharing within the group of intravenous drug users (IVDUs) and the use of ZDV in monotherapeutic regimes in the early 1990s.
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