Involvement of spinal NK1 and opioids receptors in modulating the inhibitory effect of capsaicin on micturition reflex in the acute spinalized guinea pig.

PURPOSE

The aim of this work was to study the role of capsaicin-sensitive afferent fibers in modulating the micturition reflex at spinal level in urethane-anesthetized guinea pigs after spinal cord transection at level T3-T4.

MATERIALS AND METHODS

The intravesical effect of capsaicin was investigated in a series of cystometrograms performed in intact and spinalized animals.

RESULTS

In both intact and spinalized animals capsaicin, at 30 microM, induced a significant increase of volume threshold only, whereas at 100 microM it induced a complete inhibition of the spinal micturition reflex in 60% and 85% of the animals tested, respectively. This capsaicin inhibitory effect (CIE) was unaffected by intravenous phentolamine and propranolol (0.5 and 1 mg./kg., respectively), indomethacin at 100 nmoles intrathecally (i.t.), the CGRP receptor antagonist hCGRP8-37 (3 nmoles i.t.) and the NK2 receptor selective antagonist GR 94800 (1 nmol. i.t.). However, both naloxone (30 microg. i.t.) and the NK1 antagonist GR 82334 (10 to 20 nmoles i.t.) prevented CIE in the majority of spinalized animals.

CONCLUSIONS

These results suggest that CIE could be mediated by enkephalines released by dorsal root ganglion neurons through substance P release and subsequent activation of NK1 receptors in acutely spinalized guinea pigs.