OBJECTIVE: To determine viral DNA load in peripheral blood mononuclear cells (PBMC) from HIV-1-infected individuals. DESIGN: HIV-1 copy numbers were determined using a quantitative polymerase chain reaction (PCR), the PCR-aided template titration assay (PATTY). PATTY utilizes an internal plasmid control DNA, which is amplified within the same tube and using the same primers as the PBMC target DNA. HIV-1 copy numbers were confirmed by limiting-dilution PCR analysis. RESULTS: PBMC viral load of 19 long-term (greater than 4 years) HIV-1-infected individuals ranged from 0.8 to 100 copies per 10(3) PBMC. Significantly higher copy numbers were found among p24-antigen-positive than among p24-antigen-negative individuals. In addition, the PBMC viral load of two HIV-1-infected individuals was monitored during the first 3 months after acute infection. For both patients, the HIV-1 copy numbers were shown to peak at the time of HIV-1-antibody seroconversion and decline subsequently (range, 0.6-10 copies per 10(3) PBMC). CONCLUSIONS: PATTY is a useful method for assessing the HIV-1 copy numbers in PBMC DNA. Viral DNA load peaks shortly after infection and reaches an individual specific level that is probably stable within a few months of infection. Viral DNA load in PBMC varies widely among long-term HIV-1-infected individuals.
OBJECTIVE: To determine viral DNA load in peripheral blood mononuclear cells (PBMC) from HIV-1-infected individuals. DESIGN:HIV-1 copy numbers were determined using a quantitative polymerase chain reaction (PCR), the PCR-aided template titration assay (PATTY). PATTY utilizes an internal plasmid control DNA, which is amplified within the same tube and using the same primers as the PBMC target DNA. HIV-1 copy numbers were confirmed by limiting-dilution PCR analysis. RESULTS: PBMC viral load of 19 long-term (greater than 4 years) HIV-1-infected individuals ranged from 0.8 to 100 copies per 10(3) PBMC. Significantly higher copy numbers were found among p24-antigen-positive than among p24-antigen-negative individuals. In addition, the PBMC viral load of two HIV-1-infected individuals was monitored during the first 3 months after acute infection. For both patients, the HIV-1 copy numbers were shown to peak at the time of HIV-1-antibody seroconversion and decline subsequently (range, 0.6-10 copies per 10(3) PBMC). CONCLUSIONS: PATTY is a useful method for assessing the HIV-1 copy numbers in PBMC DNA. Viral DNA load peaks shortly after infection and reaches an individual specific level that is probably stable within a few months of infection. Viral DNA load in PBMC varies widely among long-term HIV-1-infected individuals.
Authors: Yuqi Zhao; Min Yu; Johann W Miller; Mingzhong Chen; Eric G Bremer; William Kabat; Ram Yogev Journal: J Clin Microbiol Date: 2002-02 Impact factor: 5.948
Authors: S Hammer; C Crumpacker; R D'Aquila; B Jackson; J Lathey; D Livnat; P Reichelderfer Journal: J Clin Microbiol Date: 1993-10 Impact factor: 5.948