Effects of mu, delta and kappa opioid antagonists on the depression of a C-fiber reflex by intrathecal morphine and DAGO in the rat.

The roles of mu, delta and kappa opioid receptor subtypes in spinal morphine-induced antinociception were investigated. A C-fiber reflex elicited by electrical stimulation within the territory of the sural nerve was recorded from the ipsilateral biceps femoris muscle in anesthetized rats. Recruitment curves were built by varying the stimulus intensity from 0 to 7x threshold and temporal evolutions were studied by using a constant level of stimulus intensity (3x threshold). Intrathecal administration of naloxone, Cys2-Tyr3-Orn5-Pen7 amide (mu opioid receptor antagonist) and nor-binaltorphimine (nor-BNI, a kappa opioid receptor antagonist) completely antagonized the depression of the C-fiber reflex induced by 4 nmol of intrathecal morphine, whereas the antagonistic effect of naltrindole (a delta receptor antagonist) was limited, with a ceiling effect of 56%. The AD50 were 12 pmol and 1, 4.3 and 39 nmol for Cys2-Tyr3-Orn5-Pen7 amide, naloxone, nor-BNI and naltrindole, respectively. When injected alone, only naltrindole induced a short-duration depressive effect. Intrathecal administration of DAGO resulted in a depressive effect on the C-fiber reflex in a dose-dependent manner; for a stimulus intensity of 3x threshold, the ED50 was 9 pmol. DAGO was found to be 60 times more potent than morphine. Interestingly, nor-BNI, at doses which reversed the blockade of the C-fiber reflex by morphine, also reversed the effects of an equipotent dose of DAGO, which suggested an action on a mu receptor subtype.

A sensitive test for studying the effects of opioids on a C-fibre reflex elicited by a wide range of stimulus intensities in the rat.

A C-fibre reflex elicited by electrical stimulation within the receptive field of the sural nerve was recorded from the ipsilateral biceps femoris muscle in anaesthetized rats. Recruitment curves were built by varying the stimulus intensity from 0 to 50 mA and temporal evolution was studied by using a constant level of stimulation. At a constant level of stimulation, intrathecal administration of morphine resulted in a depressive effect on the C-fibre reflex in the 0.18-0.75 microgram range (ED50 = 0.2 microgram). Study of the recruitment curves showed that, in the 0.18-0.375 microgram range, morphine had little effect on the threshold, but induced significant decreases in the slopes. At doses above 0.75 microgram, morphine modified both the threshold and the slope of the recruitment curves. Systemic naloxone totally reversed these effects. It is concluded that intrathecal morphine not only produces a shift in the encoding functions of the spinal cord but also reduces the gain of these functions. It is suggested that this method is reliable for the pharmacological study of the spinal transmission of nociceptive signals.