Abstract

Early-stage heart failure (HF) is characterized by an increase in circulating atrial natriuretic peptide (ANP) without activation of the renin-angiotensin-aldosterone system (RAAS) or body fluid retention. To test the hypothesis that elevated endogenous ANP suppresses the RAAS, maintains body fluid balance, and regulates vascular tone in early-stage HF, we assessed the effects of short-term and long-term inhibition of ANP on cardiorenal and neurohormonal functions. Short-term antagonism was produced by bolus administration (3 mg/kg) of HS-142-1, an antagonist of guanylate-cyclase coupled ANP receptors, and long-term antagonism was produced by continuous infusion (1 mg/kg per h) of HS-142-1 for 8 h to dogs with early-stage HF induced by rapid ventricular pacing (270 beats/min, 8 days). In this experimentally produced HF, plasma ANP was significantly increased relative to the pre-pacing value, but not plasma renin activity (PRA) or plasma aldosterone level. HS-142-1 significantly suppressed plasma and urinary guanosine 3',5'-cyclic monophosphate (cGMP) levels, markers of endogenous ANP activity, in both experiments. Although mean arterial pressure and cardiac output did not change significantly, pulmonary capillary wedge pressure and right atrial pressure were elevated in both experiments. While short-term inhibition of ANP did not change PRA and aldosterone levels, long-term inhibition significantly increased these hormonal levels, resulting in decreases in urine flow rate, urinary sodium excretion rate, glomerular filtration rate, and renal plasma flow. These findings suggest that endogenous ANP plays a critical role in regulating venovascular tone, inhibiting activation of RAAS, and maintaining renal functions in early-stage HF.

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