Targeting inflammation with chimeric antigen receptor macrophages using a signal switch
Qi Cao, Yiping Wang, Jianwei Chen, Ruifeng Wang, Titi Chen, Brian Gloss, Scott Read, Xuerong Wang, Vincent Lee, Leighton Clancy, Natasha M. Rogers, Stephen I. Alexander, Guoping Zheng, Di Yu, David C.H. Harris
Abstract
Chimeric antigen receptor (CAR) T-cell immunotherapy has shown great success in clinical cancer, bringing hope to apply CAR strategies to other clinical settings. Here we developed a CAR macrophage (CAR-M) that recognizes the major inflammatory molecule tumour necrosis factor (TNF) and activates an intracellular IL-4 signalling pathway, thereby programming engineered macrophages for an anti-inflammatory function. CAR-M therapy has exhibited efficacy in mouse models of both acute and chronic inflammatory diseases. In kidney ischaemia reperfusion injury (IRI), infused CAR-Ms switched to an anti-inflammatory phenotype in inflamed kidney and attenuated kidney IRI. The anti-inflammatory phenotype of infused CAR-Ms switched off during the recovery phase of kidney IRI, coinciding with the disappearance of TNF. In Adriamycin-induced nephropathy, a model of chronic inflammatory disease, infused CAR-Ms maintained an anti-inflammatory phenotype for several weeks in response to sustained high levels of TNF and improved kidney function and structure. CAR-Ms also effectively reduced tissue injury in another organ, the liver. Human anti-TNF CAR-Ms exhibit anti-inflammatory phenotype and function in response to TNF. The CAR-M design, using signal switching, holds promise for the treatment of a broad range of acute and chronic inflammatory diseases.