CAR T cells produced in vivo to treat cardiac injury

Joel G. Rurik(California Institute for Regenerative Medicine), István Tombácz(University of Pennsylvania), Amir Yadegari(University of Pennsylvania), Pedro O. Méndez Fernández(California Institute for Regenerative Medicine), Swapnil V. Shewale(University of Pennsylvania), Li Li(University of Pennsylvania), Toru Kimura(University of Pennsylvania), Ousamah Younoss Soliman(University of Pennsylvania), Tyler E. Papp(University of Pennsylvania), Ying K. Tam(Acuitas Therapeutics (Canada)), Barbara L. Mui(Acuitas Therapeutics (Canada)), Steven M. Albelda(University of Pennsylvania), Ellen Puré(University of Pennsylvania), Carl H. June(University of Pennsylvania), Haig Aghajanian(California Institute for Regenerative Medicine), Drew Weissman(University of Pennsylvania), Hamideh Parhiz(University of Pennsylvania), Jonathan A. Epstein(California Institute for Regenerative Medicine)
Science
January 6, 2022
10.1126/science.abm0594
Cited by 1,207Open Access
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Abstract

Fibrosis affects millions of people with cardiac disease. We developed a therapeutic approach to generate transient antifibrotic chimeric antigen receptor (CAR) T cells in vivo by delivering modified messenger RNA (mRNA) in T cell–targeted lipid nanoparticles (LNPs). The efficacy of these in vivo–reprogrammed CAR T cells was evaluated by injecting CD5-targeted LNPs into a mouse model of heart failure. Efficient delivery of modified mRNA encoding the CAR to T lymphocytes was observed, which produced transient, effective CAR T cells in vivo. Antifibrotic CAR T cells exhibited trogocytosis and retained the target antigen as they accumulated in the spleen. Treatment with modified mRNA-targeted LNPs reduced fibrosis and restored cardiac function after injury. In vivo generation of CAR T cells may hold promise as a therapeutic platform to treat various diseases.

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