Baroreceptor and somatic sensory regulation of kidney function in two-kidney one-clip Goldblatt hypertensive rats.

摘要

The aim of this investigation was to characterize the renal haemodynamic and tubular responses to somatic afferent nerve stimulation following the removal of afferent nerve input from the atria or the carotid sinuses in chloralose-urethane-anaesthetized Sprague-Dawley rats and two-kidney, one-clip Goldblatt hypertensive rats. Bilateral stimulation of the brachial nerve plexi at 15 V, 1.3 Hz for 0.2 ms resulted in an increase in systemic blood pressure in each group of 10-40%, while renal perfusion pressure was maintained at a constant level. There were significantly larger falls in left renal blood flow and combined left and right glomerular filtration rate in all groups following selective denervation of either the cardiopulmonary or the carotid sinus baroreceptors, respectively. Brachial nerve stimulation decreased urine flow rate and absolute and fractional sodium excretion from both kidneys in Sprague-Dawley intact animals by 53, 65 and 59%; in vagotomized animals by 68, 77 and 63%; and in carotid sinus denervated animals by 86, 90 and 48%, respectively. The renal response in the Goldblatt group were similar to the normotensive group, but the main contribution of the total response was from the untouched left kidney. The inhibitory influence of the vagus and carotid sinuses on the renal sympathetic nerve-mediated sodium and water resorption appeared to be enhanced in the Goldblatt hypertensive rats when compared with the normotensive rats. The renal functional responses to somatic afferent nerve stimulation appeared to be well preserved in the renovascular hypertensive rats, although there were important differences in the contributions to the responses from the left and right kidneys. Furthermore, the baroreceptors exerted a greater influence on basal renal function in the hypertensive rats.