We determined the abilities of 10 technologies to detect and quantify a common drug-resistant mutant of human immunodeficiency virus type 1 (lysine to asparagine at codon 103 of the reverse transcriptase) using a blinded test panel containing mutant-wild-type mixtures ranging from 0.01% to 100% mutant. Two technologies, allele-specific reverse transcriptase PCR and a Ty1HRT yeast system, could quantify the mutant down to 0.1 to 0.4%. These technologies should help define the impact of low-frequency drug-resistant mutants on response to antiretroviral therapy.
Resistance mutations selected in reverse transcriptase (RT) by incompletely suppressive therapy with combination zidovudine and didanosine with or without nevirapine were identified in 141 human immunodeficiency virus type 1 isolates from peripheral blood mononuclear cells of 57 individuals in the AIDS Clinical Trials Group protocol 241. After prolonged treatment (16-48 weeks), the most common nevirapine-selected mutations were RT 181C (15/30 isolates [50%]), 190A (15/30 [50%]), and 101E (9/30 [30%]). RT 103N and 188L, which individually confer cross-resistance to all nonnucleoside RT inhibitors, were seen in a minority of viruses (6/30 [20%] and 4/30 [13%], respectively). Didanosine-resistance mutations arose rarely. A newly recognized mutation, RT 44D, was selected by the nucleosides. Two distinct zidovudine-resistance mutational patterns were noted. Mutations selected during treatment with zidovudine, didanosine, and nevirapine differed among individuals and changed over time. Resistance testing is necessary to identify which mutations are selected by nevirapine-containing combinations.
To confirm the vertical transmission of multidrug-resistant (MDR) human immunodeficiency virus type 1 (HIV-1) and to assess its impact on further evolution of drug-resistant virus in an infant, proviral DNA amplified from infected peripheral blood mononuclear cell cultures was sequenced to identify reverse transcriptase (RT) and protease (PR) mutations. The infant had proviral DNA with evidence of RT mutations (M41L, L74V, and T215Y) and 3 PR substitutions (K20R, M36I, and V82A). After delivery, the mother's proviral DNA had the same substitutions. Phylogenetic analyses of these HIV-1 RT and PR sequences indicated epidemiological linkage. Plasma drug susceptibility was determined by using a recombinant virus assay. Plasma HIV-1 obtained after the infant's birth demonstrated reduced susceptibility to zidovudine and ritonavir. Thus, vertical transmission of MDR HIV-1 was demonstrated in the setting of detectable maternal plasma viremia. Further accumulation of broad MDR in the infant's virus to 3 antiretroviral classes occurred, despite postnatal therapy.
Zidovudine (ZDV) and stavudine (d4T) select for the same set of thymidine analogue resistance mutations (TAMs). To compare the rate at which TAMs emerge, genotypic analysis of HIV-1 was performed on serial plasma samples from treatment-naive subjects randomly assigned to receive ZDV or d4T in combination with lamivudine. After 72 weeks of follow-up, TAMs were detected in samples from 50% of ZDV-treated subjects and 45% of d4T-treated subjects (P = 0.79). The frequency of K70R and T215Y or F mutations was similar in both groups, although M41L was observed more frequently in samples from ZDV-treated subjects. This randomized study shows that TAMs accumulate at similar rates during treatment with ZDV or d4T, but the specific pattern of mutations may differ somewhat in patients treated with these thymidine analogues.
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