Lien vers Pubmed [PMID] – 40158388
Lien DOI – 10.1016/j.ebiom.2025.105672
EBioMedicine 2025 Mar; 114(): 105672
Virus-specific CD8+ T cells play a major role in the natural control of HIV infection, linked to memory-like features such as high survival capacity and polyfunctionality. However, virus-specific CD8+ T cells from HIV non-controllers exhibit an effector-like and exhausted profile, with limited antiviral potential. Metabolic reprogramming of cells from non-controllers could reinvigorate their functional capacities. Considering the implication of the cholesterol pathway in the induction of T cell exhaustion, here we evaluated the impact of rosuvastatin, an inhibitor of cholesterol synthesis, on the functionality and memory profile of HIV-specific CD8+ T cells from people on antiretroviral treatment.We analysed samples from 10 individuals with HIV-1 on ART who participated in the IMEA 043-CESAR trial and received rosuvastatin for 12 weeks. We explored whether rosuvastatin treatment was accompanied by changes in the memory potential of CD8+ T cells. We evaluated the phenotype and functionality of total and HIV-specific CD8+ T cells before, during, and after treatment with rosuvastatin. A mixed effects model was used for repeated measures and corrected for multiple comparisons.Total and HIV-specific CD8+ T cell survival and functionality were enhanced in individuals who received a 12-week course of rosuvastatin, with a consistent increase in polyfunctional IFN-γ+ TNF-α+ cells. The superior CD8+ T cell functionality after rosuvastatin treatment was associated with intrinsic metabolic changes, including the decrease of fatty acid uptake, as well as a reduction in effector/exhaustion markers. Changes in the characteristics of CD8+ T cells coincided with the duration of rosuvastatin administration, and most effects waned after the cessation of the treatment.CD8+ T cell metabolic reprogramming by targeting the cholesterol pathway, combined with other available immunotherapies, might represent a promising strategy in the search for the cure of HIV or other chronic viral infections.The CESAR trial was sponsored by IMEA. This work was supported by the NIH (grants UM1AI164562 and R01DK131476).