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- Hulstrom, AL, et al.
(author)
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Human natural killer cells in asymptomatic human immunodeficiency virus-1 infection
- 2000
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In: Intervirology. - : S. Karger AG. - 0300-5526 .- 1423-0100. ; 43:4-6, s. 294-301
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Journal article (peer-reviewed)abstract
- <i>Objectives:</i> We evaluated whether DNA immunization with HIV-1 regulatory genes change natural killer (NK) effector cell activity. NK cells are the most important cells for the immediate host defense against virus-infected and tumor cells. We analyzed the NK activities of HIV-1-infected individuals against K562 cells (the classical assay) as well as against a CD4+ cell line with and without HIV-1 infection. CD4+ T lymphocytes are the main target cells for HIV-1 infection in vivo. Various proportions of the CD4+ T lymphocyte population carry the HIV-1 genome, produce virus and contribute to the systemic spread of HIV-1. <i>Methods:</i> CD4+ cell lines were established through HTLV-1 transformation which made the cells susceptible to NK lysis. NK activity was then tested in a <sup>51</sup>Cr release assay. <i>Results:</i> NK cells of asymptomatic HIV-infected individuals mediated considerable lytic activity against K562 cells as well as against the uninfected and HIV-1-infected CD4+ cell line, and so did the NK cells of HIV-1-infected patients on highly active antiretroviral treatment. <i>Conclusion:</i> DNA immunization with HIV-1-regulatory genes did not significantly change the NK effector cell activity.
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- O'Meara, D., et al.
(author)
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Monitoring resistance to human immunodeficiency virus type 1 protease inhibitors by pyrosequencing
- 2001
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In: Journal of Clinical Microbiology. - 0095-1137 .- 1098-660X. ; 39:2, s. 464-473
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Journal article (peer-reviewed)abstract
- The emergence of drug-resistant viral variants is the inevitable consequence of incomplete suppression of human immunodeficiency virus type 1 (HIV-1) replication during treatment with antiretroviral drugs. Sequencing to determine the resistance profiles of these variants has become increasingly important in the clinical management of HIV-1 patients, both in the initial design of a therapeutic plan and in selecting a salvage regimen. Here we have developed a pyrosequencing assay for the rapid characterization of resistance to HIV-1 protease inhibitors (PIs). Twelve pyrosequencing primers were designed and were evaluated on the MN strain and on viral DNA from peripheral blood mononuclear cells from eight untreated HN-l infected individuals. The method had a limit of detection of 20 to 25% for minor sequence variants. Pattern recognition (i.e., comparing actual sequence data with expected wild-type and mutant sequence patterns) simplified the identification of minor sequence variants. This real-time pyrosequencing method was applied in a longitudinal study monitoring the development of PI resistance in plasma samples obtained from four patients over a 2 1/2-year period. Pyrosequencing identified eight primary PI resistance mutations as well as several secondary mutations. This sequencing approach allows parallel analysis of 96 reactions in 1 h, facilitating the monitoring of drug resistance in eight patients simultaneously and, in combination with viral load analysis, should be a useful tool in the future to monitor HIV-1 during therapy.
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