Abstract
We have recently reported interplay between renal medullary endothelin-1 (ET-1) and purinergic (P2) systems, which play central roles in controlling Na + homeostasis in male rats. Evidence suggests that sex hormones regulate ET-1 and P2 systems. To test whether activation of the renal medullary P2 receptors promotes ET-dependent natriuresis in females and whether ovariectomy (OVX) modulates this potential interaction, we studied the effect of medullary NaCl loading on Na + excretion in adult intact female and OVX SD rats in the presence and absence of P2 or ET receptor antagonism. Isosmotic saline (284 mOsmol/kg H 2 O) was infused into the renal medullary interstitium during a baseline urine collection period, followed by isosmotic or hyperosmotic saline (1800 mOsmol/kg H 2 O) infusion. Blood pressure, renal blood flow, urine Na + , K + and osmolality were measured. Medullary NaCl loading significantly enhanced Na + excretion in intact females and OVX (from 0.8±0.2 to 6.2±1.6 and from 0.7±0.1 to 5.6±0.8 μmol/min, respectively, n=6-8, p<0.05). The natriuretic effect of NaCl loading in intact females was not attenuated by P2 or ET receptor blockade. Whereas, intramedullary infusion of the P2 receptor antagonist, suramin, inhibited the natriuresis induced by medullary NaCl loading in OVX (from 0.4±0.2 to 0.9±0.4 μmol/min, n=6). Additionally, combined ET A/B receptor blockade (ABT-627 + A-192621) abolished the natriuretic response to medullary NaCl load in OVX rats (from 0.2±0.1 to 1.4±0.7 μmol/min, n=4). Activation of medullary purinergic (P2Y 2/4 ) receptors by UTP infusion had no significant effect in intact females, but enhanced Na + excretion in OVX rats (from 0.5±0.1 to 2.3±0.8 μmol/min, n=5, p<0.05). Combined ET A/B receptor blockade significantly inhibited the natriuretic response to UTP observed in OVX rats. These data suggest that increased medullary NaCl loading induces ET-independent and P2-independent natriuresis in intact females. In OVX, activation of medullary P2 receptors promotes ET-dependent natriuresis, similar to our previous findings in male rats and suggests that OVX restores the interplay between the renal ET-1 and purinergic (P2) signaling systems to facilitate Na + excretion. Funded by AHA 15POST25090329 to EYG and P01 HL95499 to DMP
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