Noelle P. Dahl scite author profile

The quantitative viral outgrowth assay (QVOA) provides a precise minimal estimate of the reservoir of resting CD4 + T-cell infection (resting cell infection [RCI]). However, the variability of RCI over time during antiretroviral therapy (ART), relevant to assess potential effects of latency-reversing agents or other interventions, has not been fully described. We performed QVOA on resting CD4 + T cells obtained via leukapheresis from 37 human immunodeficiency virus (HIV)-infected patients receiving stable suppressive ART for a period of 6 years. Patients who started ART during acute (n = 17) or chronic (n = 20) HIV infection were studied once HIV RNA levels were <50 copies/mL for ≥6 months. Using random effects analysis of 160 RCI measurements, we found that RCI declined significantly over time (P < .001), with an estimated mean half-life of 3.6 years (95% confidence interval, 2.3-8.1 years), remarkably consistent with findings of prior studies. There was no evidence of more rapid decay in acute versus chronic HIV infection (P = .99) for patients suppressed ≥6 months. RCI was reliably estimated with longitudinal measurements generally showing <2-fold variation from the previous measure. When QVOA is performed in this format, RCI decreases of >6-fold were rare. We suggest that a 6-fold decline is a relevant threshold to reliably identify effects of antilatency interventions on RCI.

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HIV-1 Expression Within Resting CD4+ T Cells After Multiple Doses of Vorinostat

Archin¹,

Bateson²,

Tripathy³

et al. 2014

Journal of Infectious Diseases

224

185

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Quantitation of Replication-Competent HIV-1 in Populations of Resting CD4 ⁺ T Cells

Soriano-Sarabia

Bateson

Dahl

et al. 2014

J Virol

143

125

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Central memory (T CM ) CD4؉ T cells are the principal reservoir of latent HIV-1 infection that persists despite durable, successful antiretroviral therapy (ART). In a study that measured HIV DNA in 17 patients and replication-competent HIV in 4 patients, pools of resting and activated transitional memory (T TM ) CD4؉ T cells were found to be a reservoir for HIV infection. As defective viruses account for the majority of integrated HIV DNA and do not reflect the actual frequency of latent, replication-competent proviral infection, we assessed the specific contribution of resting T TM cells to latent HIV infection. We measured the frequency of replication-competent HIV in purified resting memory cell subpopulations by a limiting-dilution, quantitative viral outgrowth assay (QVOA). HIV was routinely detected within the resting central memory compartment but was infrequently detected within the resting T TM compartment. These observations suggest that prolonged ART may limit persistent latent infection in the T TM compartment. Our results confirm the importance of latent infection within the T CM compartment and again focus attention on these cells as the most important latent viral reservoir. While proliferation may drive expansion of detectable viral genomes in cells, the frequency of replication-competent HIV must be carefully assessed. Latent infection appears to wane within the transitional memory compartment in patients who have sustained successful viral suppression via ART or were treated very early in infection. IMPORTANCE Antiretroviral therapy (ART) has led to a significant decrease in morbidity and mortality among HIV-infected patients. However, HIV integrates into the genome of CD4 ؉ T cells, generating pools of long-lived cells that are reservoirs of latent HIV. Two main subsets of CD4؉ T cells, central memory and transitional memory cells, were reported to be major reservoirs of HIV infection. However, this study primarily measured the HIV DNA content, which also includes defective proviruses that would not be able to replicate and initiate new rounds of infection. By analyzing the replication-competent virus in both cell subsets, we showed that transitional memory cells may not be a durable reservoir in patients on successful ART.

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Latent HIV-1 Infection of Resting CD4 ⁺ T Cells in the Humanized Rag2 ^−/− γ _c ^−/− Mouse

Choudhary

Archin

Cheema

et al. 2012

J Virol

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Peripheral Vγ9Vδ2 T Cells Are a Novel Reservoir of Latent HIV Infection

et al. 2015

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Eradication of HIV infection will require the identification of all cellular reservoirs that harbor latent infection. Despite low or lack of CD4 receptor expression on Vδ2 T cells, infection of these cells has previously been reported. We found that upregulation of the CD4 receptor may render primary Vδ2 cells target for HIV infection in vitro and we propose that HIV-induced immune activation may allow infection of γδ T cells in vivo. We assessed the presence of latent HIV infection by measurements of DNA and outgrowth assays within Vδ2 cells in 18 aviremic patients on long-standing antiretroviral therapy. In 14 patients we recovered latent but replication-competent HIV from highly purified Vδ2 cells demonstrating that peripheral Vδ2 T cells are a previously unrecognized reservoir in which latent HIV infection is unexpectedly frequent.

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Noelle P. Dahl

Precise Quantitation of the Latent HIV-1 Reservoir: Implications for Eradication Strategies

HIV-1 Expression Within Resting CD4+ T Cells After Multiple Doses of Vorinostat

Quantitation of Replication-Competent HIV-1 in Populations of Resting CD4 ⁺ T Cells

Latent HIV-1 Infection of Resting CD4 ⁺ T Cells in the Humanized Rag2 ^−/− γ _c ^−/− Mouse

Peripheral Vγ9Vδ2 T Cells Are a Novel Reservoir of Latent HIV Infection

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Noelle P. Dahl

Precise Quantitation of the Latent HIV-1 Reservoir: Implications for Eradication Strategies

HIV-1 Expression Within Resting CD4+ T Cells After Multiple Doses of Vorinostat

Quantitation of Replication-Competent HIV-1 in Populations of Resting CD4 + T Cells

Latent HIV-1 Infection of Resting CD4 + T Cells in the Humanized Rag2 −/− γ c −/− Mouse

Peripheral Vγ9Vδ2 T Cells Are a Novel Reservoir of Latent HIV Infection

Contact Info

Product

Resources

About

Quantitation of Replication-Competent HIV-1 in Populations of Resting CD4 ⁺ T Cells

Latent HIV-1 Infection of Resting CD4 ⁺ T Cells in the Humanized Rag2 ^−/− γ _c ^−/− Mouse