Preferential selection of viral escape mutants by CD8+ T cell 'sieving' of SIV reactivation from latency

Autovaccination revisited: potential to boost antiviral immunity and facilitate HIV-1 cure/remission in children

PURPOSE OF REVIEW

To review the concept of autovaccination as a strategy to boost anti-HIV-1 immunity and improve immune control, especially as a means to facilitate cure/remission in paediatric HIV-1 infection, where effective interventions in clinical testing remain limited compared to adults.

RECENT FINDINGS

Early autovaccination studies, conducted 15-25 years ago, suggested potential immunological benefits from exposure to autologous virus in both children and adults, specifically when antiretroviral therapy (ART) was initiated during acute infection. More recent work in nonhuman primates (NHPs) has shown that early ART initiation can significantly reduce the viral setpoint following treatment interruption, primarily through CD8 + T-cell responses, and prevent early immune escape - a phenomenon commonly observed in ART-naive acute infections. Additionally, NHP studies indicate that multiple, short analytical treatment interruptions (ATIs) can delay viral rebound and further lower the viral setpoint via enhanced CD8 + T-cell responses.

SUMMARY

Recent studies in NHP support the potential for autovaccination via short ATIs to enhance antiviral immunity and improve immune control of HIV-1. With well tolerated, well monitored ATI protocols, autovaccination could be a valuable approach to facilitating cure/remission in children living with HIV (LWH), in whom very early-ART initiation and early-life immunity are associated with low viral reservoirs and high cure/remission potential.

Intra-host variability of SARS-CoV-2: Patterns, causes and impact on COVID-19

Intra-host viral variability is related to pathogenicity, persistence, drug resistance, and the emergence of new clades. This work reviews the large amount of data on SARS-CoV-2 intra-host variability accumulated to date, addressing known and potential implications in COVID-19 and the emergence of VOCs and lineage-defining mutations. Topics covered include the distribution of intra-host polymorphisms across the genome, the corresponding mutational signatures, their patterns of emergence and extinction throughout infection, and the processes governing their abundance, frequency, and type (synonymous, nonsynonymous, indels, nonsense). Besides, evidence is reviewed that the virus can replicate and mutate in isolation at different anatomical compartments, which may imply that what we have learned from respiratory samples could be part of a broader picture.

Early antiretroviral therapy in SIV-infected rhesus macaques reveals a multiphasic, saturable dynamic accumulation of the rebound competent viral reservoir

The rebound competent viral reservoir (RCVR)-virus that persists during antiretroviral treatment (ART) and can reignite systemic infection when treatment is stopped-is the primary barrier to eradicating HIV. We used time to initiation of ART during primary infection of rhesus macaques (RMs) after intravenous challenge with barcoded SIVmac239 as a means to elucidate the dynamics of RCVR establishment in groups of RMs by creating a multi-log range of pre-ART viral loads and then assessed viral time-to-rebound and reactivation rates resulting from the discontinuation of ART after one year. RMs started on ART on days 3, 4, 5, 6, 7, 9 or 12 post-infection showed a nearly 10-fold difference in pre-ART viral measurements for successive ART-initiation timepoints. Only 1 of 8 RMs initiating ART on days 3 and 4 rebounded after ART interruption despite measurable pre-ART plasma viremia. Rebounding plasma from the 1 rebounding RM contained only a single barcode lineage detected at day 50 post-ART. All RMs starting ART on days 5 and 6 rebounded between 14- and 50-days post-ART with 1-2 rebounding variants each. RMs starting ART on days 7, 9, and 12 had similar time-to-measurable plasma rebound kinetics despite multiple log differences in pre-ART plasma viral load (pVL), with all RMs rebounding between 7- and 16-days post-ART with 3-28 rebounding lineages. Calculated reactivation rates per pre-ART pVL were highest for RMs starting ART on days 5, 6, and 7 after which the rate of accumulation of the RCVR markedly decreased for RMs treated on days 9 and 12, consistent with multiphasic establishment and near saturation of the RCVR within 2 weeks post infection. Taken together, these data highlight the heterogeneity of the RCVR between RMs, the stochastic establishment of the very early RCVR, and the saturability of the RCVR prior to peak viral infection.