Abstract
The role of the prorenin receptor (PRR) in the regulation of ureteric bud (UB) branching morphogenesis is unknown. Here, we investigated whether PRR acts specifically in the UB to regulate UB branching, kidney development and function. We demonstrate that embryonic (E) day E13.5 mouse metanephroi, isolated intact E11.5 UBs and cultured UB cells express PRR mRNA. To study its role in UB development, we conditionally ablated PRR in the developing UB (PRR UB−/−) using Hoxb7 Cre mice. On E12.5, PRR UB−/− mice had decreased UB branching and increased UB cell apoptosis. These defects were associated with decreased expression of Ret, Wnt11, Etv4/Etv5, and reduced phosphorylation of Erk1/2 in the UB. On E18.5, mutants had marked kidney hypoplasia, widespread apoptosis of medullary collecting duct cells and decreased expression of Foxi1, AE1 and H+-ATPase α4 mRNA. Ultimately, they developed occasional small cysts in medullary collecting ducts and had decreased nephron number. To test the functional consequences of these alterations, we determined the ability of PRR UB−/− mice to acidify and concentrate the urine on postnatal (P) day P30. PRR UB−/− mice were polyuric, had lower urine osmolality and a higher urine pH following 48 hours of acidic loading with NH4Cl. Taken together, these data show that PRR present in the UB epithelia performs essential functions during UB branching morphogenesis and collecting duct development via control of Ret/Wnt11 pathway gene expression, UB cell survival, activation of Erk1/2, terminal differentiation and function of collecting duct cells needed for maintaining adequate water and acid-base homeostasis. We propose that mutations in PRR could possibly cause renal hypodysplasia and renal tubular acidosis in humans.
Highlights
Congenital anomalies of the kidney and urinary tract (CAKUT) occur in 3–6 per 1000 live births and account for 31% of all cases of end-stage kidney disease (ESKD) in children in the United States [1]
These observations were confirmed by Western blot analysis, demonstrating decreased phospho Erk1/2 (pErk1/2)/total extracellular signal-regulated kinase 1/2 (Erk1/2) ratios in PRRUB2/2 compared with PRRUB+/+ whole E12.5 kidneys
Duct Cell Apoptosis To identify the cellular mechanisms by which prorenin receptor (PRR) deficiency in the ureteric bud (UB) could cause aberrant UB branching morphogenesis, we examined UB cell proliferation and apoptosis in PRRUB2/2 and control mice on E12.5
Summary
Congenital anomalies of the kidney and urinary tract (CAKUT) occur in 3–6 per 1000 live births and account for 31% of all cases of end-stage kidney disease (ESKD) in children in the United States [1]. All forms of CAKUT stem from abnormal kidney development [1,2]. Branching morphogenesis of the ureteric bud (UB) is a key developmental process that directs organogenesis of the metanephric kidney [3,4]. Terminal tips of branching UBs induce surrounding mesenchyme-derived nephron progenitors to differentiate into nephrons, forming the metanephric kidney [3,4]. Following completion of UB branching, UB-derived collecting ducts undergo terminal differentiation- acquisition of distinct epithelial cell types that perform specialized functions [4,5]. Derangements in UB morphogenesis or UB cell differentiation result in CAKUT and distal renal tubular disorders, respectively [3,4,5,6,7,8]
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