Chronic CEI alters effect of low Na+ diet in normal and coarcted pups. II. Na+ and H2O balance

Abstract

To assess angiotensin (ANG II) dependence of evolving neonatally induced coarctation hypertension (NICH) in inbred pups, we randomized sex-matched littermates to high-dose converting enzyme inhibitor (CEI: MK-421, 3 mg/kg) or placebo from the time of neonatal aortic banding (coarcted) vs. no banding (control). During phase 1 studies over 4 mo postbanding during ad libitum Na+ intake (Bagby and Fuchs, Hypertension Dallas in press). CEI failed to prevent evolution of proximal blood pressure (BP) excess or to impair renal function. Phase 2 studies examine, in the same pups, responses to low Na+ (LS) diet superimposed on chronic CEI at 4 mo, timed to allow development of BP increase in untreated NICH. The present report details metabolic handling and balances of Na+, K+, and fluid for 3 days before (normal Na+ intake) and daily for 11 days after initiation of LS diet, a companion paper describes BP, renin-angiotensin (RA), and renal functional responses. In no case did metabolic responses of coarcted pups to LS diet differ from those of controls, whether on CEI or placebo, whereas responses to LS diet and to CEI reveal positive findings of independent interest. LS diet induced expected renal and fecal Na+ conservation, no net effect on K+ balance, and, despite unexpected free-water diuresis, mild hyponatremia. Chronic CEI impaired maximal renal (but not fecal) Na+ conservation during LS diet, caused exaggerated free-water diuresis but no change in fluid balance, and thus, with the larger Na+ deficit, accounted for greater hyponatremia. CEI caused no net effect on K+ balance. Results indicate normal renal handling of fluid, Na+, and K+ in evolving NICH and provide no evidence for selective intrarenal RA activation or exaggerated ANG II dependence. Findings also suggest that, during LS diet, ANG II is 1) essential for maximum renal Na+ conservation and normal free-water handling, and 2) not essential for fecal Na+ and water conservation or for maintenance of normal water and K+ balances. Results are also compatible with a CEI-induced thirst stimulation and/or osmotic insensitivity and with functional vasopressin deficiency during LS diet.