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Vol. 282, Issue 2, 535-542, 1997
Department of Pharmacology and Experimental Therapeutics and
Neuroscience Center of Excellence, Louisiana State University Medical
Center, New Orleans, Louisiana
We have shown recently that intracisternal administration of
endothelin-(ET)1 and ET-3 evokes increases in gastric motor function and arterial blood pressure. The aim of our study was to investigate whether the dorsal vagal complex (DVC) is a medullary site of action
for the gastric motor and cardiovascular effects of ET-1 and to
identify the ET receptor subtype through which these effects are
mediated. ET-1 (0.1-40 pmol/site) and ET-3 (1 and 100 pmol/site) were
microinjected into the DVC of 
-chloralose anesthetized rats, while
monitoring intragastric pressure, contractile activity of greater
curvature longitudinal and pyloric circular smooth muscle, arterial
blood pressure and heart rate. ET-1, at doses of 0.1 to 40 pmol,
increased intragastric pressure and, at doses of 10 and 40 pmol,
increased pyloric contractile activity and arterial blood pressure. The
increases in gastric motor function, but not the hypertension, induced
by ET-1 (10 pmol) in the DVC were completely abolished by bilateral
vagotomy. Spinal cord transection prevented increases in arterial blood
pressure evoked by ET-1 (40 pmol). Because only the highest dose of
ET-3 (100 pmol), microinjected into the DVC, increased intragastric
pressure and pyloric contractile activity and no consistent changes in
cardiovascular functions were noted, we hypothesized that the gastric
motor and hypertensive responses to endothelins in the DVC are mediated
via ETA receptors. This was supported by the observation
that a selective ETA receptor antagonist,
cyclo(-D-Trp-D-Asp-Pro-D-Val-Leu)
(BQ-123; 400 pmol), microinjected into the DVC 15 min before ET-1 (10 pmol) or ET-3 (100 pmol), completely blocked the gastric motor and
cardiovascular responses to endothelins. We conclude that endothelins
act in the brainstem at the level of the DVC to increase intragastric pressure and gastric contractile activity via a vagally mediated pathway and that both the gastric motor and hypertensive effects of
endothelins in the DVC are mediated through ETA receptors.
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