Decelerating Decay of Latently Infected Cells during Prolonged Therapy for Human Immunodeficiency Virus Type 1 Infection

Müller, Viktor; Vigueras, Javier Flavio; Bonhoeffer, Sebastian

doi:10.1128/jvi.76.17.8963-8965.2002

Cited by 35 publications

(32 citation statements)

References 27 publications

(27 reference statements)

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“…The change in clearance kinetics might reflect decreasing activation rates after viral suppression [48]. Alternatively, cells recognizing common antigens may be preferentially activated and cleared during the first year, leaving latently infected memory cells that recognize rarely encountered antigens to activate slowly in subsequent years [10,49]. The different dynamics of phenotypically distinct populations of long-lived cells, including memory T cells, naive T cells [50], thymocytes, and other cell types [51][52][53], might also contribute to the decline in clearance.…”

Section: Discussionmentioning

confidence: 98%

Effect of Treatment, during Primary Infection, on Establishment and Clearance of Cellular Reservoirs of HIV-1

et al. 2005

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Patients in whom virologic suppression is achieved with highly active antiretroviral therapy (HAART) retain long-lived cellular reservoirs of human immunodeficiency virus type 1 (HIV-1); this retention is an obstacle to sustained control of infection. To assess the impact that initiating treatment during primary HIV-1 infection has on this cell population, we analyzed the decay kinetics of HIV-1 DNA and of infectivity associated with cells activated ex vivo in 27 patients who initiated therapy before or <6 months after seroconversion and in whom viremia was suppressed to <50 copies/mL. The clearance rates of cellular reservoirs could not be distinguished by these techniques (median half-life, 20 weeks) during the first year of HAART. The clearance of HIV-1 DNA slowed significantly during the subsequent 3 years of treatment (median half-life, 70 weeks), consistent with heterogeneous cellular reservoirs being present. Total cell-associated infectivity (CAI) after 1 year of treatment was undetectable (<0.07 infectious units/million cells [IUPM]) in most patients initiating treatment during primary infection either before (9/9) or <6 months after (6/8) seroconversion. In contrast, all 17 control patients who initiated HAART during chronic infection retained detectable CAI after 3-6 years of treatment (median reservoir size, 1.1 IUPM; P<.0005). These results suggest that treatment <6 months after seroconversion may facilitate long-term control of cellular reservoirs that maintain HIV-1 infection during treatment.

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Section: Discussionmentioning

confidence: 98%

Effect of Treatment, during Primary Infection, on Establishment and Clearance of Cellular Reservoirs of HIV-1

et al. 2005

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“…Perhaps memory lymphocytes, which recognize a spectrum of antigens, activate and clear at a continuum of rates according to antigen specificities and the abundance of cognate antigens (44,45). The selective enrichment of HIV-infected cells recognizing rarely encountered antigens (Fig.…”

Section: Resultsmentioning

confidence: 99%

Heterogeneous clearance rates of long-lived lymphocytes infected with HIV: Intrinsic stability predicts lifelong persistence

Strain

Günthard

Havlir

et al. 2003

Proc. Natl. Acad. Sci. U.S.A.

227

199

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Viral replication and latently infected cellular reservoirs persist in HIV-infected patients achieving undetectable plasma virus levels with potent antiretroviral therapy. We exploited a predictable drug resistance mutation in the HIV reverse transcriptase to label and track cells infected during defined intervals of treatment and to identify cells replenished by ongoing replication. Decay rates of subsets of latently HIV-infected cells paradoxically decreased with time since establishment, reflecting heterogeneous lymphocyte activation and clearance. Residual low-level replication can replenish cellular reservoirs; however, it does not account for prolonged clearance rates in patients without detectable viremia. In patients receiving potent antiretroviral therapy, the latent pool has a heterogeneous and dynamic composition that comprises a progressively increasing proportion of stable lymphocytes. Eradication will not be achieved with complete inhibition of viral replication alone.

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“…Recent studies have shown that a pool of latently infected cells is established during the primary phase of HIV infection (Bonhoeffer et al, 1997;Grossman et al, 1998;Havlir et al, 2003;Lafeuillade et al, 2000;Muller et al, 2002). These cells are infected cells in a resting state and can be activated after a long time of dormancy to produce infectious virus particles.…”

Section: Modeling Latently Infected Cellsmentioning

confidence: 99%

A viral load-based cellular automata approach to modeling HIV dynamics and drug treatment

Shi¹,

Tridane²,

Kuang³

2008

Journal of Theoretical Biology

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Decelerating Decay of Latently Infected Cells during Prolonged Therapy for Human Immunodeficiency Virus Type 1 Infection

Cited by 35 publications

References 27 publications

Effect of Treatment, during Primary Infection, on Establishment and Clearance of Cellular Reservoirs of HIV-1

Effect of Treatment, during Primary Infection, on Establishment and Clearance of Cellular Reservoirs of HIV-1

Heterogeneous clearance rates of long-lived lymphocytes infected with HIV: Intrinsic stability predicts lifelong persistence

A viral load-based cellular automata approach to modeling HIV dynamics and drug treatment

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