Tasha Biesinger scite author profile

BackgroundPrevious studies of human and simian immunodeficiency virus (HIV and SIV) have demonstrated that adaptive mutations selected during the course of infection alter viral replicative fitness, persistence, and pathogenicity. What is unclear from those studies is the impact of transmission on the replication and pathogenicity of the founding virus population. Using the SIV-macaque model, we examined whether the route of infection would affect the establishment and replication of two SIVmne variants of distinct in vitro and in vivo biological characteristics. For these studies, we performed dual-virus inoculations of pig-tailed macaques via intrarectal or intravenous routes with SIVmneCl8, a miminally pathogenic virus, and SIVmne027, a highly pathogenic variant that replicates more robustly in CD4+ T cells.ResultsThe data demonstrate that SIVmne027 is the dominant virus regardless of the route of infection, indicating that the capacity to replicate efficiently in CD4+ T cells is important for fitness. Interestingly, in comparison to intravenous co-infection, intrarectal inoculation enabled greater relative replication of the less pathogenic virus, SIVmneCl8. Moreover, a higher level of SIVmneCl8 replication during primary infection of the intrarectally inoculated macaques was associated with lower overall plasma viral load and slower decline in CD4+ T cells, even though SIVmne027 eventually became the dominant virus.ConclusionsThese results suggest that the capacity to replicate in CD4+ T cells is a significant determinant of SIV fitness and pathogenicity. Furthermore, the data also suggest that mucosal transmission may support early replication of phenotypically diverse variants, while slowing the rate of CD4+ T cell decline during the initial stages of infection.

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HIV-1 Transmission, Replication Fitness and Disease Progression

Biesinger

Kimata

2008

Virology�(Auckl)

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Upon transmission, human immunodefi ciency virus type 1 (HIV-1) establishes infection of the lymphatic reservoir, leading to profound depletion of the memory CD4+ T cell population despite the induction of the adaptive immune response. The rapid evolution and association of viral variants having distinct characteristics during different stages of infection, the level of viral burden, and rate of disease progression suggest a role for viral variants in this process. Here, we review the literature on HIV-1 variants and disease and discuss the importance of viral fi tness for transmission and disease.

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Changes in simian immunodeficiency virus reverse transcriptase alleles that appear during infection of macaques enhance infectivity and replication in CD4+ T cells

Biesinger

Kimata

2008

Virology

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We previously showed that a slowly replicating, minimally pathogenic clone of simian immunodeficiency virus (SIV), SIVmneCl8, evolves increased ability to replicate in T cells with the onset of AIDS in pig-tailed macaques. Moreover, molecular clones derived from late stages of infection (SIVmne170 and SIVmne027) replicate to high levels in vivo compared to SIVmneCl8. Here, we investigated the role of rt mutations in SIVmne variant replication. We demonstrate selection for rt alleles that enhance viral infectivity and replication capacity in CD4(+) T cells. Moreover, the ability of SIVmne to be induced from resting CD4(+) T cells by anti-CD3/CD28 stimulation is more strongly influenced by the variant rt alleles than nef alleles. Taken together, our data underscore the importance of RT determinants for pathogenicity of SIV and for the capacity to replicate in CD4(+) T cell populations.

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ICAM-3 influences human immunodeficiency virus type 1 replication in CD4+ T cells independent of DC-SIGN-mediated transmission

et al. 2007

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We investigated the role of ICAM-3 in DC-SIGN-mediated human immunodeficiency virus (HIV) infection of CD4(+) T cells. Our results demonstrate that ICAM-3 does not appear to play a role in DC-SIGN-mediated infection of CD4(+) T cells as virus is transmitted equally to ICAM-3(+) or ICAM-3(-) Jurkat T cells. However, HIV-1 replication is enhanced in ICAM-3(-) cells, suggesting that ICAM-3 may limit HIV-1 replication. Similar results were obtained when SIV replication was examined in ICAM-3(+) and ICAM-3(-) CEMx174 cells. Furthermore, while ICAM-3 has been proposed to play a co-stimulatory role in T cell activation, DC-SIGN expression on antigen presenting cells did not enhance antigen-dependent activation of T cells. Together, these data indicate that while ICAM-3 may influence HIV-1 replication, it does so independent of DC-SIGN-mediated virus transmission or activation of CD4(+) T cells.

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Tasha Biesinger

Relative replication capacity of phenotypic SIV variants during primary infections differs with route of inoculation

HIV-1 Transmission, Replication Fitness and Disease Progression

Changes in simian immunodeficiency virus reverse transcriptase alleles that appear during infection of macaques enhance infectivity and replication in CD4+ T cells

ICAM-3 influences human immunodeficiency virus type 1 replication in CD4+ T cells independent of DC-SIGN-mediated transmission

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