Human galectin-9 promotes the expansion of HIV reservoirs in vivo in humanized mice

Galectin-9 Levels as a Potential Predictor of Intact HIV Reservoir Decay

BACKGROUND

During antiretroviral therapy (ART), the HIV reservoir exhibits variability as cells with intact genomes decay faster than those with defective genomes, especially in the first years of therapy. The host factors influencing this decay are yet to be characterized.

METHODS

Observational study in 74 PWH on ART, of whom 70 (94.6%) were male. We used the intact proviral DNA assay to measure intact proviruses and Luminex immunoassay to measure 32 inflammatory cytokines in plasma. Linear spline models, with a knot at seven years, evaluated the impact of baseline cytokine levels and their trajectories on intact HIV kinetics over these years.

RESULTS

Baseline Gal-9 was the most predictive marker for intact HIV kinetics, with lower Gal-9 predicting faster decay over the subsequent seven years. For each 10-fold decrease in Gal-9 at baseline, there was a mean 45% (95%CI 14%-84%) greater decay of intact HIV genomes per year. Conversely, higher baseline ITAC, IL-17, and MIP-1α predicted faster intact HIV decreases. Longitudinal changes in MIP-3α and IL-6 levels strongly associated with intact HIV kinetics, with a 10-fold increase in MIP-3α and a 10-fold decrease in IL-6 associated with a a 9.5% and 10% faster decay of intact HIV genomes per year, respectively.

CONCLUSION

The pronounced association between baseline Gal-9 levels and subsequent intact HIV decay suggests that strategies reducing Gal-9 levels could accelerate reservoir decay. Additionally, the correlations of MIP-3α and IL-6 with HIV kinetics indicate a broader cytokine-mediated regulatory network, hinting at multi-targeted interventions that could modulate HIV reservoir dynamics.

Humanized mice for studying HIV latency and potentially its eradication

PURPOSE OF THE REVIEW

The quest for an HIV cure faces a formidable challenge: the persistent presence of latent viral infections within the cells and tissues of infected individuals. This review provides a thorough examination of discussions surrounding HIV latency, the use of humanized mouse models, and strategies aimed at eliminating the latent HIV reservoir. It explores the hurdles and advancements in understanding HIV pathogenesis, mainly focusing on establishing latent reservoirs in CD4 + T cells and macrophages. Introducing the concepts of functional and sterile cures, the review underscores the indispensable role of humanized mouse models in HIV research, offering crucial insights into the efficacy of cART and the ongoing pursuit of an HIV cure.

RECENT FINDINGS

Here, we highlight studies investigating molecular mechanisms and pathogenesis related to HIV latency in humanized mice and discuss novel strategies for eradicating latent HIV. Emphasizing the importance of analytical cART interruption in humanized mouse studies to gauge its impact on the latent reservoir accurately, the review underlines the ongoing progress and challenges in harnessing humanized mouse models for HIV research.

SUMMARY

This review suggests that humanized mice models provide valuable insights into HIV latency and potential eradication strategies, contributing significantly to the quest for an HIV cure.

Bispecific antibodies promote natural killer cell-mediated elimination of HIV-1 reservoir cells

The persistence of CD4+ T cells carrying latent human immunodeficiency virus-1 (HIV-1) proviruses is the main barrier to a cure. New therapeutics to enhance HIV-1-specific immune responses and clear infected cells will probably be necessary to achieve reduction of the latent reservoir. In the present study, we report two single-chain diabodies (scDbs) that target the HIV-1 envelope protein (Env) and the human type III Fcγ receptor (CD16). We show that the scDbs promoted robust and HIV-1-specific natural killer (NK) cell activation and NK cell-mediated lysis of infected cells. Cocultures of CD4+ T cells from people with HIV-1 on antiretroviral therapy (ART) with autologous NK cells and the scDbs resulted in marked elimination of reservoir cells that was dependent on latency reversal. Treatment of human interleukin-15 transgenic NSG mice with one of the scDbs after ART initiation enhanced NK cell activity and reduced reservoir size. Thus, HIV-1-specific scDbs merit further evaluation as potential therapeutics for clearance of the latent reservoir.