Immune responses against exogenous cells, vectors, and proteins have emerged as a significant barrier limiting development of therapies for inherited disorders. This is especially true when testing human cells and genes in animal models of disease. In this issue of Molecular Therapy, Vallese et al.1 describe an improved immunodeficient mouse model for Duchenne muscular dystrophy (DMD) that should facilitate the development of therapies. The authors show that these mice enable extensive testing of human stem cells and methods of delivery without immune-mediated rejection of donor cells. The utility of this model is further enhanced by use of a specific mutant allele that eliminates background dystrophin expression in muscle tissues, providing a sensitive platform for monitoring cell engraftment and exogenous gene expression. As such, the model could accelerate development of interventions based on both stem cell transplantation and genetic manipulation.