We addressed the mechanism for reduced pial vascular reactivity to muscarinic stimulation by evaluating pial vessel responses to receptor-dependent [10(-5) M acetylcholine (ACh)] and independent (10(-5) M A-23187) agonists and the endothelium-independent nitric oxide (NO) donor [10(-5) M nitroprusside (NP)]. Cerebral blood flow (CBF, microspheres) and pial arteriolar diameters (intravital microscopy) were measured in halothane-anesthetized cats. Cats (n = 13) were treated with 12 min of near-complete global cerebral ischemia, whereas control animals (n = 9) were identically instrumented but were not submitted to ischemia. Postischemic hypoperfusion was evident in most animals at 60 min of reperfusion, accompanied by attenuated pial arterial dilation to topical ACh (baseline dilation 23 +/- 4% vs. postischemia 11 +/- 3%) and A-23187 (16 +/- 4 vs. 0 +/- 3% dilation). Dilation to NP was unaffected. CBF response to intravenous administration of the muscarinic receptor agonist oxotremorine was also decreased throughout the forebrain (162 +/- 12 vs. 116 +/- 6% increase in flow) in these cats. These data suggest that endothelium-dependent vasodilation with topical muscarinic agonists is impaired during hypoperfusion, but vascular smooth muscle responsivity to NO remains intact. We conclude that the defect in the signal transduction pathway is not limited to the receptor and may involve an abnormality with NO synthesis or its destruction within endothelium.
The high density of GABA-benzodiazepine receptors in the superficial dorsal horn suggests a possible involvement of benzodiazepines (BZs) in the modulation of spinal pain processes. In this electrophysiological study we have examined the effects of midazolam (MZ), a water-soluble short-acting BZ, on the activities of 57 nociceptive non-specific dorsal horn cells, one in each animal. Recordings were performed at lumbar level in unanesthetized decerebrate spinal rats before and following intravenous injection of MZ (1, 2 or 5 mg/kg). The spontaneous activity was weakly and significantly but not dose dependently reduced by MZ. For the total neuronal population MZ induced no significant effect on C-fiber evoked responses, whatever the dose used. More precise analysis shows that for 45/55 neurons the responses were slightly depressed, but this effect was not dose dependent. In contrast, A delta-fiber evoked responses were markedly and dose dependently depressed. These effects of MZ were reversed by intravenous administration of the antagonist flumazenil (FZ). Despite the fact that MZ displays a very weak effect on responses due to C-fiber stimulation, the possible involvement of BZs in the modulation of nociceptive transmission at the level of the dorsal horn is discussed on the basis of clinical and experimental findings, taking into account the role of GABAergic mechanisms in sensory events.
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