Browsing by Author "Parkin, Neil"

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    Comparison of Laboratory Methods for Analysis of Non-nucleoside Reverse Transcriptase Inhibitor Resistance in Ugandan Infants
    (2009) Church, Jessica D.; Huang, Wei; Parkin, Neil; Marlowe, Natalia; Guay, Laura A.; Omer, Saad B.; Musoke, Philippa; Jackson, J. Brooks; Eshleman, Susan H.
    Detailed comparisons of HIV drug resistance assays are needed to identify the most useful assays for research studies, and to facilitate comparison of results from studies that use different methods. We analyzed nonnucleoside reverse transcriptase inhibitor (NNRTI) resistance in 40 HIV-infected Ugandan infants who had received nevirapine (NVP)-based prophylaxis using the following assays: an FDA-cleared HIV genotyping assay (the ViroSeq HIV-1 Genotyping System v2.0), a commercially available HIV genotyping assay (GeneSeq HIV), a commercially available HIV phenotyping assay (PhenoSense HIV), and a sensitive point mutation assay (LigAmp). ViroSeq and GeneSeq HIV results (NVP resistance yes=no) were similar for 38 (95%) of 40 samples. In 6 (15%) of 40 samples, GeneSeq HIV detected mutations in minor subpopulations that were not detected by ViroSeq, which identified two additional infants with NVP resistance. LigAmp detected low-level mutations in 12 samples that were not detected by ViroSeq; however, LigAmp testing identified only one additional infant with NVP resistance. GeneSeq HIV and PhenoSense HIV determinations of susceptibility differed for specific NNRTIs in 12 (31%) of the 39 samples containing mixtures at relevant mutation positions. PhenoSense HIV did not detect any infants with NVP resistance who were not identified with GeneSeq HIV testing. In this setting, population sequencing-based methods (ViroSeq and GeneSeq HIV) were the most informative and had concordant results for 95% of the samples. LigAmp was useful for the detection and quantification of minority variants. PhenoSense HIV provided a direct and quantitative measure of NNRTI susceptibility.
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    Genetic Linkage of Nevirapine Resistance Mutations in HIV Type 1 Seven Days after Single-Dose Nevirapine
    (AIDS Research & Human Retroviruses, 2005) Jones, Dana; Parkin, Neil; Hudelson, Sarah E.; Guay, Laura A.; Musoke, Philippa; Mmiro, Francis; Jackson, J. Brooks; Eshleman, Susan H.
    The HIVNET 012 trial in Uganda demonstrated that a regimen of single-dose nevirapine (NVP) can prevent HIV-1 mother-to-child transmission. Previous studies show that HIV-1 with one or more NVP resistance (NVPR) mutations can be selected in many women as early as 7 days after single-dose NVP. We evaluated the genetic linkage of NVPR mutations in plasma from women in HIVNET 012 collected 7 days after single-dose NVP administration. The HIV-1 pol region was amplified and cloned from 20 plasma samples (16 with NVPR mutations detected by population sequencing and 4 with no NVPR mutations detected), and 10 clones from each sample were sequenced. Up to five different NVPR mutations were detected in clones from a single sample. K103N and Y181C were the most common mutations detected. Clones with two genetically linked mutations were detected in four samples. Different combinations of NVPR mutations were linked in individual clones, but none of the clones contained both K103N and Y181C. Further studies are needed to evaluate whether selection of minority variants with one or more NVPR mutations after single-dose NVP is clinically relevant.
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    Vertical Transmission Of X4-Tropic And Dual-Tropic HIV-1 In Five Ugandan Mother–Infant Pairs
    (AIDS (London, England), 2009) Huang, Wei; Eshleman, Susan H.; Toma, Jonathan; Stawiski, Eric; Whitcomb, Jeannette M.; Jackson, J. Brooks; Guay, Laura; Musoke, Philippa; Parkin, Neil; Petropoulos, Christos J.
    We previously reported the existence of CXCR4-using HIV-1 in 6–14 week-old Ugandan infants. Whether these viruses were transmitted from the mother perinatally or evolved after transmission is not known. In the current study, we investigated the origin of the CXCR4-using viruses in these infants by comparing HIV-1 envelope clones from the infants to those from their mothers at or near the time of delivery.Envelope clones were isolated from five Ugandan infant plasma samples that harbored CXCR4-using viruses, collected at the time of HIV diagnosis (four at birth, one at week 6), and from their mothers at delivery. Coreceptor usage and phylogenetic relatedness of HIV-1 populations in mother–infant pairs were analyzed in detail using the Trofile assay and sequence analysis of envelope clones, respectively.X4-tropic clones were identified in two mother–infant pairs and dual-tropic clones were found in three pairs, either alone or in combination with R5-tropic viruses. Dual-tropic clones varied in their ability to infect CXCR4-expressing cells. In each mother–infant pair, X4-tropic or dual-tropic clones shared similar phenotypic profiles and V3 sequence patterns; gp160 sequences of X4-tropic and dual-tropic clones from infants were phylogenetically indistinguishable from those of their mothers. The virus populations were phylogenetically homogenous in three infants and segregated according to coreceptor tropism in the remaining two infants.This study demonstrates that X4-tropic and dual-tropic HIV-1 can be transmitted from mother to infant, before, during or shortly after delivery, and establishes vertical transmission as an important source of CXCR4-using viruses in infants.