Spatiotemporal immune atlas of a clinical-grade gene-edited pig-to-human kidney xenotransplant.
Matthew D CheungRebecca AsiimweElise N ErmanChristopher F FucileShanrun LiuChiao-Wang SunVidya Sagar HanumanthuHarish C PalEmma D WrightGelare Ghajar-RahimiDaniel EpsteinBabak J OrandiVineeta KumarDouglas J AndersonMorgan E GreeneMarkayla BellStefani YatesKyle H MooreJennifer LaFontaineJohn T KillianGavin A BakerJackson PerryZayd KhanRhiannon ReedShawn C LittleAlexander F RosenbergJames F GeorgeJayme E LockePaige M PorrettPublished in: Nature communications (2024)
Pig-to-human xenotransplantation is rapidly approaching the clinical arena; however, it is unclear which immunomodulatory regimens will effectively control human immune responses to pig xenografts. Here, we transplant a gene-edited pig kidney into a brain-dead human recipient on pharmacologic immunosuppression and study the human immune response to the xenograft using spatial transcriptomics and single-cell RNA sequencing. Human immune cells are uncommon in the porcine kidney cortex early after xenotransplantation and consist of primarily myeloid cells. Both the porcine resident macrophages and human infiltrating macrophages express genes consistent with an alternatively activated, anti-inflammatory phenotype. No significant infiltration of human B or T cells into the porcine kidney xenograft is detectable. Altogether, these findings provide proof of concept that conventional pharmacologic immunosuppression may be able to restrict infiltration of human immune cells into the xenograft early after compatible pig-to-human kidney xenotransplantation.