Renal cyst growth is the main determinant for the development of hypertension and concentration deficit in Pkd1-deficient mice

Hypertension (SAH) develops ten years earlier in autosomal dominant polycystic kidney disease (ADPKD) patients compared with the general population, being present in ~60% of affected individuals before the loss of renal function. Renal concentrating deficit is also an early finding in these patients. It has been proposed that the renin-angiotensin system plays a central role in ADPKD-related SAH, while different explanations have been raised to justify the concentrating impairment. We bred a floxed allele of Pkd1 with a nestin Cre expressing line to generate viable, adult male cystic mice (Pkd1cond/cond:Balcre, CY) with preserved GFR. These animals were systematically evaluated for a series of renal functional, morphological, cellular and molecular parameters. Parallel analyses were carried out in Pkd1-haploinsuficient mice (Pkd1+/-, HT), which do not develop visible renal cysts. CY mice were significantly hypertensive by 10-13 weeks of age, a phenotype not seen in non-cystic controls (Pkd1cond/cond, NC) and Pkd1-haploinsufficient animals. The fractional excretion of Na+ and K+ were reduced and SUN slightly elevated in the CY mice, suggesting increased tubular solute reabsorption. Angiotensinogen gene expression was significantly higher in CY than NC kidneys, whereas immunohistochemical analyses revealed angiotensin-converting enzyme and AT1 receptor expression in renal cyst epithelia. Urine excretion of NO2 was also diminished in CY mice, along with increased rates of renal cell proliferation and apoptosis. Maximum urine osmolality was decreased in CY animals, a deficit not found in HT and NC controls. Interestingly, a trend toward increased serum vasopressin levels was observed in the CY mice. Taken together these results support the hypothesis that cyst formation and growth play an important role in the development of SAH in ADPKD and that activation of the intrarenal reninangiotensin system is a fundamental mechanism in this process. Our findings also strongly suggest that renal cyst expansion is essential for the development of renal concentrating deficit in this disease, and are consistent with the existence of focal areas of vascular compression and reduced perfusion in ADPKD kidneys. (AU)