Gabriela M. Vasquez scite author profile

Internally controlled RT-PCR methods (QC-RT-PCR) for quantification of SIV RNA are effective, but are relatively cumbersome, expensive, and time and labor intensive. For greater throughput and efficiency, we have developed a method for quantification of plasma SIV RNA levels by real-time RT-PCR using the Applied Biosystems Prism 7700 sequence detection system. This assay format allows real-time kinetic analysis of PCR product generation, providing a broad linear dynamic range and ensuring that quantification is based on analysis during the exponential phase of amplification, regardless of the input template copy number. Simultaneous amplification and analysis eliminates any requirement for handling amplified products, increasing throughput and eliminating a potential source of assay contamination. The assay we have developed for quantification of SIV RNA has a nominal threshold sensitivity of 300 copy Eq/ml of plasma, although as little as 10 copy Eq/reaction of SIV RNA template can be detected. The linear dynamic range is in excess of 5 logs. Interassay reproducibility averages 25% (coefficient of variation), based on studies of extraction and analysis of replicate aliquots of the same plasma specimens. The combination of sensitivity, precision, and broad dynamic range allows reliable quantification of viral load even during dynamic phases of SIV infection, such as through the onset and resolution of primary infection, or during treatment with antiretroviral agents. The primer-probe combinations we have developed allow quantification of SIV isolates most commonly used for experimental studies. Availability of this assay should greatly facilitate studies of basic pathogenesis and evaluation of therapeutic and prophylactic approaches in the SIV-infected macaque.

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Viral dynamics of primary viremia and antiretroviral therapy in simian immunodeficiency virus infection

Nowak

Lloyd

Vasquez

et al. 1997

J Virol

263

133

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Mathematical modeling of viral replication dynamics, based on sequential measurements of levels of virion-associated RNA in plasma during antiretroviral treatment, has led to fundamental new insights into human immunodeficiency virus type 1 pathogenesis. We took advantage of the simian immunodeficiency virus (SIV)-infected macaque model to perform detailed measurements and mathematical modeling during primary infection and during treatment of established infection with the antiretroviral drug (R)-9-(2-phosphonylmethoxypropyl)adenine (PMPA). The calculated clearance half-life for productively infected cells during resolution of the peak viremia of primary infection was on the order of 1 day, with slightly shorter clearance half-lives calculated during PMPA treatment. Viral reproduction rates upon discontinuation of PMPA treatment after 2 weeks were approximately twofold greater than those obtained just prior to initiation of treatment in the same animals, likely reflecting accumulation of susceptible target cells during treatment. The basic reproductive ratio (R0) for the spread of SIV infection in vivo, which represents the number of productively infected cells derived from each productively infected cell at the beginning of infection, was also estimated. This parameter quantifies the extent to which antiviral therapy or vaccination must limit the initial spread of virus to prevent establishment of chronic disseminated infection. The results thus provide an important guide for efforts to develop vaccines against SIV and, by extension, human immunodeficiency virus.

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Administration of 9-[2-(Phosphonomethoxy)propyl] adenine (PMPA) for Prevention of Perinatal Simian Immunodeficiency Virus Infection in Rhesus Macaques

Rompay

Marthas²,

Lifson

et al. 1998

AIDS Research and Human Retroviruses

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Simian immunodeficiency virus (SIV) infection of newborn macaques is a useful animal model to explore novel strategies to reduce perinatal human immunodeficiency virus (HIV) infection. The availability of two easily distinguishable virus isolates, SIVmac251 and the simian/human immunodeficiency virus chimera SHIV-SF33, allows tracing the source of infection following inoculation with both viruses by different routes. In the present study, we evaluated the efficacy of pre- and postinoculation treatment regimens with 9-[2-(phosphonomethoxy)propyl]adenine (PMPA) to protect newborn macaques against simultaneous oral SIVmac251 and intravenous SHIV-SF33 inoculation. Untreated newborns became persistently infected following virus inoculation. When three pregnant macaques were given a single subcutaneous dose of PMPA 2 hr before cesarean section, their newborns became SIV-infected following SIV and SHIV inoculation shortly after birth. In contrast, when four newborn macaques were inoculated simultaneously with SIV and SHIV, and started immediately on PMPA treatment for 2 weeks, only one animal became persistently SIV-infected; the remaining three PMPA-treated newborns, however, had some evidence of an initial transient virus infection but were seronegative and healthy at 8 months of age. Our data demonstrate that PMPA treatment can reduce perinatal SIV infection and suggest that similar strategies may also be effective against HIV.

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The extent of early viral replication is a critical determinant of the natural history of simian immunodeficiency virus infection

Lifson

Nowak

Goldstein

et al. 1997

J Virol

219

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Different patterns of viral replication correlate with the natural history of disease progression in humans and macaques infected with human immunodeficiency virus type 1 (HIV-1) and simian immunodeficiency virus (SIV), respectively. However, the viral and host factors influencing these patterns of viral replication in vivo are poorly understood. We intensively studied viral replication in macaques receiving identical inocula of SIV. Marked differences in viral replication patterns were apparent within the first week following inoculation, a time prior to the development of measurable specific immune effector responses to viral antigens. Plasma viral RNA levels measured on day 7 postinoculation correlated with levels measured in the postacute phase of infection. Differences in the susceptibility of host cells from different animals to in vitro SIV infection correlated with the permissiveness of the animals for early in vivo viral replication and hence with the postacute set point level of plasma viremia. These results suggest that host factors that exert their effects prior to full development of specific immune responses are critical in establishing the in vivo viral replication pattern and associated clinical course in subjects infected with SIV and, by extension, with HIV-1.

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