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1 Cardiovascular Neuroscience
Group,
Opioid receptors are activated during severe
hemorrhage, resulting in sympathoinhibition and a profound fall in
blood pressure. This study examined the location and subtypes of opioid
receptors that might contribute to hypotension after hemorrhage.
Intrathecal naloxone methiodide (100 nmol) abolished the fall in blood
pressure after hemorrhage (1.5% of body wt; mean arterial pressure 122 ± 8 mmHg after naloxone methiodide vs. 46 ± 5 mmHg in controls, P < 0.001). Intracisternal naloxone
methiodide was less effective than intrathecal naloxone methiodide,
whereas intravenous naloxone methiodide, which does not cross the
blood-brain barrier, did not alter the fall in blood pressure after
hemorrhage. These results demonstrate that spinal opioid receptors
contribute to hypotension after hemorrhage but do not exclude
supraspinal effects. In separate experiments, the subtype-specific
opioid antagonists ICI-174864 (
-antagonist), norbinaltorphimine
(nor-BNI; 
-antagonist), and H-D-Phe-Cys-Tyr-D-Trp-Orn-Thr-Pen-Thr-NH2
(CTOP; µ-antagonist) were each administered intrathecally to
determine the minimum dose that would attenuate hypotension during
severe hemorrhage. These antagonists were effective at similar doses (3 nmol for CTOP, 6 nmol for ICI-174864, and 10 nmol for nor-BNI),
although the binding affinities of these three different agents for
their target receptors varied >1600-fold. Comparisons of the minimum effective doses of these antagonists in relation to their binding affinities provides strong evidence for the participation of
-receptors in mediating hypotension after hemorrhage. In contrast,
the dose at which nor-BNI was effective suggests an effect at
-receptors but not -receptors. The efficacy of CTOP, albeit at a
high dose, also suggests an effect at µ-receptors.
sympathoinhibition; sympathetic nervous system; naloxone; enkephalin
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