Angiotensinogen-, angiotensin-converting enzyme-, and angiotensin II (Ang II) type 1 receptor (AT 1 R)-deficient mice exhibit a dilated renal pelvis (hydronephrosis) and a small papilla. These abnormalities have been attributed to impaired development of the ureteral and pelvic smooth muscle. Defects in the growth and branching of the ureteric bud (UB), which gives rise to the collecting system, have not been examined carefully. This study tested the hypothesis that Ang II stimulates UB growth and branching in the intact metanephros. Immunohistochemistry demonstrated that embryonic mouse kidneys express AT 1 R in the UB and its branches. Embryonic day 11.5 metanephroi were microdissected from Hoxb7-green fluorescence protein mice and grown for 48 h in serum T he metanephros develops via reciprocal inductive interactions between the ureteric bud (UB) and the metanephrogenic mesenchyme (MM) (1,2). Signals from the MM induce UB outgrowth from the nephric duct and its elongation and entrance into the mesenchyme followed by repetitive branching to form the renal collecting system (ureter, pelvis, calyces, and collecting ducts). In turn, emerging UB tips induce surrounding mesenchymal cells to condense, aggregate, undergo mesenchymal-to-epithelial transition, and form nephrons (from the glomerulus to the distal tubule). Therefore, UB branching morphogenesis is critical in determining nephron number, and subtle defects in the efficiency and/or accuracy of this process potentially can have profound effects on the proper development of the metanephric kidney. Decreased nephron endowment is linked to hypertension and eventual progression to chronic renal failure (3,4). In addition, aberrant UB branching morphogenesis causes renal dysplasia, the leading cause of chronic renal failure in human infants.Genetic inactivation of the renin-angiotensin system (RAS) genes in mice causes abnormalities in the development of the ureter, renal pelvis, and papilla (5-9). Angiotensinogen-, angiotensin-converting enzyme (ACE)-, or angiotensin II (Ang II) type 1 receptor (AT 1 R)-deficient mice exhibit pelvic dilation (hydronephrosis) and a small papilla mimicking urinary tract obstruction. Elegant studies from Ichikawa's laboratory have suggested that absence of AT 1 R signaling in ureteral smooth muscle cells impairs pelvic-ureteral smooth muscle development and peristalsis (9). Mutations in the AT 2 R gene in mice and humans are associated with increased incidence of lower urinary tract anomalies, including double ureters and vesicoureteral reflux (10). These findings indicate that UB growth and development are a target for Ang II actions. Work that has performed by several laboratories, including ours, has revealed that the fetal kidney expresses a local RAS. Quantitative analysis of murine Ang II receptors AT 1 R and AT 2 R gene expression indicate that AT 1 R undergo a progressive increase during fetal and neonatal life, whereas AT 2 R are high in the fetus and decline significantly with maturation (11). Immunolocalization studies d...
