Abstract

Hypertension is characterized by sympathetic overactivity. Neuropeptide Y (NPY) and ATP are cotransmitters of norepinephrine (NE) and regulate renovascular resistance. The present study analyzes sympathetic nonadrenergic neurotransmission in hypertensive (SH-SP) and normotensive (WKY) rats. In addition, adult and young hypertensive rats were compared to investigate the role of aging on sympathetic nonadrenergic cotransmission in hypertensive disease. Pressor responses to renal nerve stimulations (RNS) and drugs were measured on isolated perfused kidneys of young (8-10 weeks) and adult (18-24 weeks) WKY, and SH-SP rats. RNS evoked contractions at 1 Hz were resistant to blockade by the alpha-adrenoceptor antagonist phentolamine (1 microM) but abolished by the P2 receptor blocker suramin (100 microM). Compared to adult WKY, RNS-induced pressor responses were unchanged in adult SH-SP and young WKY, but significantly greater in young SH-SP rats. The NPY-Y1 receptor antagonist BIBP3226 (1 microM) reduced phentolamine-resistant pressor responses in adult and young WKY, young SH-SP, but not in adult SH-SP rats. In contrast to WKY and young SH-SP rats, exogenously perfused NPY (0.1 microM) was unable to potentiate RNS-induced, phentolamine-resistant pressor responses in adult SH-SP rats. NE and the stable ATP analogue alpha,beta-mATP increased the perfusion pressor response more potently in adult SH-SP than in WKY rats. Neuronally released NPY plays a major role in potentiating RNS-induced nonadrenergic pressor responses in kidneys of WKY and young SH-SP rats. In adult SH-SP rats NPY fails to enhance these responses. In this hypertensive model ageing seems to be associated with a loss of a modulatory role of renal NPY Y1 receptors. Since pressor responses to NE and ATP are higher in SH-SP animals, functional NPY-Y1 receptor downregulation might be an adaptive mechanism.

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