osr1 maintains renal progenitors and regulates podocyte development by promoting wnt2ba through antagonism of hand2

Knowledge about the genetic pathways that control renal cell lineage development is essential to better understand the basis of congenital malformations of the kidney and design regenerative medicine therapies. The embryonic zebrafish kidney, or pronephros, contains two nephrons that are conserved with humans. Recently, the transcription factors Osr1 and Hand2 were found to exert antagonistic influences to balance kidney specification (Perens et al., 2016). Here, we performed a forward genetic screen in zebrafish to identify nephrogenesis regulators, where whole genome sequencing of the novel oceanside (ocn) mutant revealed a nonsense mutation in osr1. ocn mutants evince severe pronephros defects including abrogation of podocytes and proximal tubule cells. Our studies reveal that osr1 is not needed to specify renal progenitors, but rather required to maintain their survival. Additionally, osr1 is requisite for expression of the canonical Wnt ligand wnt2ba, where wnt2ba is expressed in the intermediate mesoderm (IM) and later restricts to podocytes. Deficiency of wnt2ba reduced podocyte progenitors, where overexpression of wnt2ba was sufficient to rescue the podocyte lineage as well as osr1 loss of function. Finally, we demonstrate that reciprocal antagonism between osr1 and hand2 mediates podocyte development specifically by controlling wnt2ba expression in the IM. Together, our data show that Osr1 is essential for a sequence of temporal functions that mediate the survival and lineage decisions of IM progenitors, and subsequently the maintenance of podocytes and proximal tubule epithelium in the embryonic nephron.