Hypoimmune induced pluripotent stem cell-derived cell therapeutics treat cardiovascular and pulmonary diseases in immunocompetent allogeneic mice

The emerging field of regenerative cell therapy is still limited by the few cell types that can reliably be differentiated from pluripotent stem cells and by the immune hurdle of commercially scalable allogeneic cell therapeutics. Here, we show that gene-edited, immune-evasive cell grafts can survive and successfully treat diseases in immunocompetent, fully allogeneic recipients. Transplanted endothelial cells improved perfusion and increased the likelihood of limb preservation in mice with critical limb ischemia. Endothelial cell grafts transduced to express a transgene for alpha1-antitrypsin (A1AT) successfully restored physiologic A1AT serum levels in mice with genetic A1AT deficiency. This cell therapy prevented both structural and functional changes of emphysematous lung disease. A mixture of endothelial cells and cardiomyocytes was injected into infarcted mouse hearts, and both cell types orthotopically engrafted in the ischemic areas. Cell therapy led to an improvement in invasive hemodynamic heart failure parameters. Our study supports the development of hypoimmune, universal regenerative cell therapeutics for cost-effective treatments of major diseases.

Automated summary

This study demonstrates that gene-edited, immune-evasive cell grafts can survive and successfully treat diseases in fully allogeneic recipients, improving conditions like critical limb ischemia, genetic A1AT deficiency, and emphysematous lung disease in mouse models. Furthermore, a mixture of endothelial cells and cardiomyocytes engrafted in infarcted mouse hearts, leading to an improvement in invasive hemodynamic heart failure parameters. The study supports the development of hypoimmune, universal regenerative cell therapeutics for cost-effective treatments of major diseases.