We report orthotopic (life-supporting) survival of genetically engineered porcine cardiac xenografts (with 3-9 progressive gene modifications) for almost 9 months in baboon recipients. This work builds on our previously reported heterotopic cardiac xenograft (3 gene modifications) survival up to 945 days with an anti-CD40 monoclonal antibody-based immunosuppression. In this current study, life-supporting xenografts containing multiple human complement regulatory, thromboregulatory, and anti-inflammatory proteins, in addition to growth hormone receptor knockout (KO) and carbohydrate antigen KOs, were transplanted. Selective "multi-gene" xenografts demonstrate survival greater than 8 months without the use of adjunctive medications and without evidence of abnormal xenograft thickness or rejection. These data demonstrate that selective “multi-gene" modifications improve cardiac xenograft survival significantly and may be foundational for paving the way to bridge transplantation in humans.
