This study examined the possibility that the renal tubules are the site of the sensors that respond to renal artery stenosis (RAS) and which initiate the events leading to pressor hyperresponsiveness. A nonfiltering kidney (NFK) was produced in 32 rabbits by 2 hr of total renal ischemia plus permanent ligation of the ureter; the opposite kidney remained undisturbed. Sixteen of these rabbits also received RAS of the NFK. An additional 16 rabbits received RAS without production of a NFK, and 16 more rabbits were sham-operated controls. In acute experiments 3 days later in conscious rabbits, infusions of norepinephrine at several doses resulted in greater increases in mean arterial pressure in the RAS rabbits, with filtering kidneys (2-K, I-clip) and with NFKs (2-K, 1-clip with NFK), than in the NFK rabbits without RAS (2-K control with NFK) or in the control rabbits (2-K control). Measurements of cardiac output revealed greater increases in total peripheral resistance as well as in mean arterial pressure in response to norepinephrine in the RAS rabbits both without and with a NFK. Because production of a NFK in rabbits did not prevent the development of pressor and vascular hyperresponsiveness 3 days after RAS, these studies indicated that the renal sensors that detect changes in the kidney following RAS and which initiate the series of events leading to pressor and vascular hyperresponsiveness, probably are not located in the renal tubules.
EarAbstract. Six rabbits were sham operated and were given water to drink (sham-water group); six additional rabbits were sham operated and were given saline to drink (sham-salt group); another six rabbits received an implant of deoxycorticosterone (DOCA) and were given water to drink (DOCA-water group); a final group of six rabbits received implants of DOCA and were given saline to drink (DOCA-salt group). Two weeks later, all four groups of rabbits had approximately the same mean arterial pressures, and the sham-salt, DOCA-water, and DOCAsalt groups all had plasma renin activity values less than the sham-water group. The DOCAsalt group had greater pressor responses to norepinephrine (NE) at several doses than did the other three groups of rabbits. In another group of six sham-water and six DOCA-salt rabbits, measurements of cardiac output before and during infusions of NE at 800 ng/min/kg body wt revealed no changes in cardiac output before or during NE infusion, but the DOCA-salt group had significantly greater increases in mean arterial pressure and total peripheral resistance during NE than did the sham-water group. In another group of six MXA-salt rabbits, the pressor response to several doses of NE were determined during infusion of the angiotensin I1 (AH) antagonist, [Sar', Ile'] AII; this A11 antagonist failed to alter the enhanced pressor responses to NE. A final experiment examined pressor responses to NE in six normal rabbits before and after cross circulation of blood with six DOCA-salt rabbits. After blood cross circulation the normal rabbits had exaggerated pressor responses to NE at 5, 15, and 30 min, but not at 60 min. Similar cross-circulation experiments between six pairs of normal rabbits did not show any transfer of pressor hyperresponsiveness. These studies indicated that pressor and vascular hyperresponsiveness in DOCA-salt rabbits is conveyed by a fast-acting hormonal factor and that A11 probably is not involved in mediating this hyperresponsiveness. 279 0037-9727/85 $1 S O at Harvard Libraries on July 5, 2015 ebm.sagepub.com Downloaded from
Norepinephrine was infused iv at several doses into four groups of conscious rabbits (six per group), and the pressor responses were recorded. The groups were 3-day sham-operated rabbits; 3-day, two-kidney rabbits with unilateral renal artery stenosis (RAS); 3-day, two-kidney rabbits with unilateral renal denervation; and 3-day, two-kidney rabbits with unilateral renal denervation plus RAS of the denervated kidney. The rabbits with RAS of an innervated kidney and those with RAS of a denervated kidney had the same pressor responses to norepinephrine, which were greater than the pressor responses in the sham-operated rabbits or in the rabbits with a denervated kidney but without RAS. Four additional groups of similarly prepared rabbits were infused with norepinephrine at 800 ng/min/kg body wt, and mean arterial pressure and cardiac output were determined before and during norepinephrine infusion. The rabbits with RAS of an innervated or of a denervated kidney had greater increases in total peripheral resistance as well as in mean arterial pressure during norepinephrine infusion than did the two groups of rabbits without RAS. This indicated that the rabbits with RAS also had increased vascular responses to norepinephrine. The concentration of norepinephrine in six denervated kidneys was extremely low as compared to that of six innervated kidneys. Because renal denervation did not diminish pressor and vascular hyperresponsiveness in 3-day RAS rabbits, the signal that originates in the kidney following RAS and that results ultimately in pressor and vascular hyperresponsiveness is not mediated by renal nerves.
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