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Role of nNOS in regulation of renal function in angiotensin II-induced hypertension

Publication at Second Faculty of Medicine |
2001

Abstract

Previous studies have indicated that in normotensive rats, NO produced by neuronal NO synthase (nNOS) plays an important role in modulating tubuloglomerular feedback (TGF)-mediated afferent arteriolar constriction. It has also been shown that in angiotensin (Ang) II-infused hypertensive rats, there is a reduced ability of nNOS-derived NO to counteract this vasoconstriction.

The present study was performed to (1) assess in vivo renal functional responses to intrarenal nNOS inhibition in control and Ang II-infused rats and (2) determine whether changes in renal function following nNOS inhibition are mediated by unopposed stimulation of Ang II receptor subtype I (AT(1)). Wistar rats were infused with either saline (SAL) or Ang II (80 ng/min) by osmotic minipumps implanted subcutaneously.

Mean arterial blood pressure of SAL- and Ang II-infused rats on day 13 after implantation averaged 121 +/-4 (n=28) and 151 +/-5 (n=30), respectively (P0.09 versus 0.59 +/-0.09 mL . min(-1) . g(-1)), renal plasma flow (RPF) (2.66 +/-0.31 versus 2.34 +/-0.39 mL . min(-1) . g(-1)), and absolute sodium excretion (0.37 +/-0.07 versus 0.42 +/-0.09 mu mol . min(-1) . g(-1)). Intrarenal infusion of SAL did not change GFR, RPF, and sodium excretion in either SAL-infused (n=7) or Ang II-infused rats (n=8).

Acute intrarenal administration of the nNOS inhibitor S-methyl-L-thiocitrulline (L-SMTC; 0.3 mg/h) decreased GFR, RPF, and sodium excretion in SAL-infused rats (n=9) by 29 +/-4%, 38 +/-4%, and 70 +/-4% compared with control values (P3%) elicited by nNOS inhibition and resulted in an increase in GFR (+25 +/- 12, P12%, P2%, -15 +/- 10%, and -14 +/- 10%, respectively). These results suggest that in normotensive rats nNOS-derived NO counteracts Ang II-mediated vasoconstriction in the pre- and postglomerular microcirculation.

Furthermore, Ang II-infused rats exhibit an impaired ability to release NO by nNOS. Decreased nNOS activity is likely to account at least partially for the enhanced TGF responsiveness in Ang II-infused rats and thus may contribute to the maintenance of hypertension in this model.