A Gene Implicated in Activation of Retinoic Acid Receptor Targets Is a Novel Renal Agenesis Gene in Humans.

Renal agenesis (RA) is one of the more extreme examples of congenital anomalies of the kidney and urinary tract (CAKUT). Bilateral renal agenesis is almost invariably fatal at birth, and unilateral renal agenesis can lead to future health issues including end-stage renal disease. Genetic investigations have identified several gene variants that cause RA, including EYA1, LHX1, and WT1 However, whereas compound null mutations of genes encoding α and γ retinoic acid receptors (RARs) cause RA in mice, to date there have been no reports of variants in RAR genes causing RA in humans. In this study, we carried out whole exome sequence analysis of two families showing inheritance of an RA phenotype, and in both identified a single candidate gene, GREB1L Analysis of a zebrafish greb1l loss-of-function mutant revealed defects in the pronephric kidney just prior to death, and F0 CRISPR/Cas9 mutagenesis of Greb1l in the mouse revealed kidney agenesis phenotypes, implicating Greb1l in this disorder. GREB1L resides in a chromatin complex with RAR members, and our data implicate GREB1L as a coactivator for RARs. This study is the first to associate a component of the RAR pathway with renal agenesis in humans.

Regulation of c-Ret in the developing kidney is responsive to Pax2 gene dosage.

During kidney development, Pax2 and Pax8 are expressed very early in the mammalian nephric duct and both precede the expression of receptor tyrosine kinase, c-Ret. However, in Pax2-/- mutant mice, expression of c-Ret is lost after embryonic day 10.5. As the Ret/Gdnf pathway is necessary for renal development and there is a temporal and spatial relationship of Pax2 and c-Ret expression in the developing genito-urinary system, we postulate that Pax2 is necessary for c-Ret expression in the developing kidney. In vitro, Pax2 protein is capable of physically interacting with a c-RET promoter, and both Pax2 and Pax8 can activate the expression of a reporter gene driven by the c-RET promoter. Compound heterozygous null mice (Pax2+/-: Ret+/-) display an increased incidence of unilateral and bilateral renal agenesis, and smaller kidneys with fewer nephrons. Furthermore, the expression of Gdnf is reduced 2-3-fold, whereas c-Ret expression is reduced 9-47-fold in Pax2 heterozygous embryonic kidneys as detected by real-time quantitative RT (QRT)-PCR. The data demonstrate that Pax2 plays an integral role in the initiation and maintenance of the Ret/Gdnf pathway by not only activating the ligand of the pathway, but by also enhancing the expression of the pathway receptor Ret. The effects of reduced Pax2 gene dosage are thus amplified resulting in a haploinsufficient phenotype.