Evidence that age‐related changes in p38 MAP kinase contribute to the decreased steroid production by the adrenocortical cells from old rats

HIV persistence during combination antiretroviral therapy (cART) is the principal obstacle to cure. Mechanisms responsible for persistence remain uncertain; infections may be maintained by persistence and clonal expansion of infected cells or by ongoing replication in anatomic locations with poor antiretroviral penetration. These mechanisms require different strategies for eradication, and determining their contributions to HIV persistence is essential. We used phylogenetic approaches to investigate, at the DNA level, HIV populations in blood, lymphoid, and other infected tissues obtained at colonoscopy or autopsy in individuals who were on cART for 8 to 16 years. We found no evidence of ongoing replication or compartmentalization of HIV; we did detect clonal expansion of infected cells that were present before cART. Long-term persistence, and not ongoing replication, is primarily responsible for maintaining HIV. HIV-infected cells present when cART is initiated represent the only identifiable source of persistence and is the appropriate focus for eradication.

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Single Genome Analysis for the Detection of Linked Multiclass Drug Resistance Mutations in HIV-1-Infected Children After Failure of Protease Inhibitor-Based First-Line Therapy

Lange

Hué

Violari

et al. 2015

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The WHO recommends protease inhibitor (PI)–based antiretroviral therapy (ART) for vertically infected children after failed nevirapine (NVP) prophylaxis. Emergence of PI resistance on the backdrop of preexisting non-nucleoside reverse transcriptase inhibitor (NNRTI) resistance could compromise long-term treatment options in such children. We characterized multiclass drug resistance using single genome sequencing (SGS) in children with viremia while receiving PI-based ART. We applied SGS of HIV-1 protease (PR) and reverse transcriptase to longitudinal samples from a cohort of the Children with HIV Early Antiretroviral Therapy trial with viral loads >1000 copies per milliliter after 40 weeks of early ART. Bulk sequencing revealed NVP-selected resistance in 50% of these children, whereas SGS revealed NVP-selected resistance in 70%. Two children had baseline NRTI and PI mutations, suggesting previous maternal ART. Linked multiclass drug resistance after PI-based ART was detected by SGS in 2 of 10 children. In one child, the majority species contained M184V in reverse transcriptase linked to L10F, M46I/L, I54V, and V82A in PR and a triple-class drug-resistant variant with these mutations linked to the NNRTI mutation V108I. In the second child, the majority species contained M184V and V82A linked within viral genomes. We conclude that when PI-based ART is initiated soon after birth after single dose-NVP prophylaxis, PI and NRTI resistance can occur in the majority species as expected and also be selected on the same genomes as preexisting NNRTI-resistant mutations. These observations highlight a future therapeutic challenge for vertically infected children where antiretroviral drug classes are limited.

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Targeted Bacteriophage T4 Nanoparticles Reverse HIV-1 Latency in CD4+ Human T Cells

Batra

Zhu

Jain

et al. 2021

Preprint

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The latent HIV-1 reservoir containing stably integrated and transcriptionally silent proviruses in CD4+ T cells is a major barrier for virus eradication. Targeted reactivation of the latent reservoir remains a major challenge in establishing a path for an HIV-1 cure. Here, we investigated the possibility of reactivating the HIV-1 reservoir by targeting engineered bacteriophage T4 capsid nanoparticles to reservoir cells. The surface lattice of the 120 x 86 nm phage capsid was arrayed with CD4 binding ligands such as recombinant CD4DARPin or the HIV-1 gp140 envelope protein. When exposed to either PBMCs or the resting CD4+ T cells in vitro, these nanoparticles caused T cells activation without inducing global T cell activation. Furthermore, the nanoparticles reactivated HIV-1 proviral transcription that led to virus assembly and release in the J-Lat cells, a cell line model of HIV-1 latency. Intriguingly, the observed T cell activation and HIV-1 latency reversal did not occur through the classic PKC or NFAT pathways suggesting the involvement of a yet unknown pathway. These studies demonstrate that engineered non-infectious bacteriophages could be potentially exploited for HIV-1 cure and other targeted T cell therapies.

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High-level dolutegravir resistance can emerge rapidly from few variants and spread by recombination: implications for integrase strand transfer inhibitor salvage therapy

Huik

Hill

George

et al. 2022

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The integrase strand transfer inhibitor (INSTI) dolutegravir is commonly used in combination antiretroviral therapy regimens and retains strong potency even with primary resistance mutations to some other INSTIs. Acquisition of accessory mutations to primary mutations results in significant increases in dolutegravir resistance. Previously, we reported that addition of the secondary mutation T97A can result in rapid treatment failure in individuals with INSTI mutations at positions 140 and 148. Here, we conducted a detailed case study of one of these individuals and find that T97A-containing HIV emerged from a large replicating population from only a few (≤4) viral lineages. When combined with primary INSTI resistance mutations, T97A provides a strong selective advantage; the finding that T97A-containing variants spread by replication and recombination, and persisted for months after discontinuing dolutegravir, has important implications as dolutegravir is rolled out worldwide.

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C. Lange

No evidence of ongoing HIV replication or compartmentalization in tissues during combination antiretroviral therapy: Implications for HIV eradication

Single Genome Analysis for the Detection of Linked Multiclass Drug Resistance Mutations in HIV-1-Infected Children After Failure of Protease Inhibitor-Based First-Line Therapy

Targeted Bacteriophage T4 Nanoparticles Reverse HIV-1 Latency in CD4+ Human T Cells

High-level dolutegravir resistance can emerge rapidly from few variants and spread by recombination: implications for integrase strand transfer inhibitor salvage therapy

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