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In vivo CAR T cell generation to treat cancer and autoimmune disease

Menée à l'aide d'un modèle murin et d'un modèle de singe, cette étude met en évidence l'intérêt d'une stratégie pour générer in vivo des lymphocytes CAR-T à l'aide de nanoparticules lipidiques ciblant un sous-groupe de lymphocytes T CD8+ et chargées en ARN messagers codant pour une protéine anti-CD19

Chimeric antigen receptor (CAR) T cell therapies have transformed treatment of B cell malignancies. However, their broader application is limited by complex manufacturing processes and the necessity for lymphodepleting chemotherapy, restricting patient accessibility. We present an in vivo engineering strategy using targeted lipid nanoparticles (tLNPs) for messenger RNA delivery to specific T cell subsets. These tLNPs reprogrammed CD8+ T cells in both healthy donor and autoimmune patient samples, and in vivo dosing resulted in tumor control in humanized mice and B cell depletion in cynomolgus monkeys. In cynomolgus monkeys, the reconstituted B cells after depletion were predominantly naïve, suggesting an immune system reset. By eliminating the requirements for complex ex vivo manufacturing, this tLNP platform holds the potential to make CAR T cell therapies more accessible and applicable across additional clinical indications. Chimeric antigen receptor (CAR)–T cell therapies have been highly successful for treating B cell malignancies and also have potential for the treatment of autoimmune disease. However, complex manufacturing and conditioning regimens have limited their accessibility and scalability. Hunter et al. report a gene-delivery system to generate CAR-T cells in vivo by dosing of a CD8-targeted lipid nanoparticle carrying anti-CD19 CAR mRNA (see the Perspective by Peche and Gottschalk). Data from rodent and nonhuman primate (NHP) models demonstrated tumor control. In autoimmune models, deep and transient depletion of B cells was observed in the blood and tissues of NHPs, resulting in an “immune reset.” Such a strategy may provide an off-the-shelf, nonviral, and scalable alternative to ex vivo CAR-T cell immunotherapy. —Priscilla N. Kelly

Science , résumé, 2025

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