Fate-mapping within human kidney organoids reveals conserved mammalian nephron progenitor lineage relationships

While mammalian kidney morphogenesis has been well documented, human kidney development is poorly understood. Here we combine reprogramming, CRISPR/Cas9 gene-editing and organoid technologies to study human nephron lineage relationships in vitro. Early kidney organoids contained a SIX2+ population with a transcriptional profile akin to human nephron progenitors. Lineage-tracing using gene-edited induced pluripotent stem cell (iPSC) lines revealed that SIX2-expressing cells contribute to nephron formation but not to the putative collecting duct epithelium. However, Cre-mediated temporal induction of the SIX2+ lineage revealed a declining capacity for these cells to contribute to nephron formation over time. This suggests human kidney organoids, unlike the developing kidney in vivo, lack a nephron progenitor niche capable of both self-renewal and ongoing nephrogenesis. Nonetheless, human iPSC-derived kidney tissue maintains previously identified lineage relationships supporting the utility of pluripotent stem cell-derived kidney organoids for interrogating the molecular and cellular basis of early human development.