Morphine withdrawal syndrome and its prevention with baclofen: autoradiographic study of µ-opioid receptors in prepubertal male and female mice

SILVINA L. DIAZ, VIRGINIA G. BARROS, MARTA C. ANTONELLI, MODESTO C. RUBIO AND GRACIELA N. BALERIO

SYNAPSE

Año: 2006

0887-4476

We have previously shown that the GABAB agonist baclofen (BAC) prevents the expression of morphine (MOR) withdrawal syndrome in male as well as female mice. In order to extend these previous observations, the aim of the present study was to evaluate the µ-opioid receptor labeling in various brain areas in mice of either sex, during MOR withdrawal and its prevention with BAC. Prepubertal Swiss-Webster mice were rendered dependent by intraperitoneal (i.p.) injection of MOR (2 mg/kg), twice daily for 9 days. On the 10th day, dependent animals received NAL (6 mg/kg, i.p.) 60 min after MOR, and another pool of dependent mice received BAC (2 mg/kg, i.p.) previous to NAL. Thirty min after NAL injection mice were sacrificed, brains were collected, and coronal sections were cut to perform autoradiographic studies with [3H]-[DAMGO]. Autoradiographic mapping showed a significant increase of µ-opioid receptor labeling during MOR withdrawal in nucleus accumbens core (NAcC), caudate putamen (CPu), mediodorsal thalamic nucleus (MDTh), basolateral and basomedial amygdala and ventral tegmental area vs respective control groups in male mice. In contrast, opiate receptor labeling was not significantly modified in any of the brain areas studied in withdrawn females. BAC reestablished µ-opioid receptor binding sites during MOR withdrawal only in NAcC, CPu and MDTh of males. The sexual dimorphism observed in the present study confirms previous reports indicating a greater sensitivity of males in response to MOR pharmacological properties. The present results suggest that the effect of BAC in preventing the expression of MOR withdrawal signs could be related with the ability of BAC to reestablish the µ-opioid receptor labeling in certain brain areas.B agonist baclofen (BAC) prevents the expression of morphine (MOR) withdrawal syndrome in male as well as female mice. In order to extend these previous observations, the aim of the present study was to evaluate the µ-opioid receptor labeling in various brain areas in mice of either sex, during MOR withdrawal and its prevention with BAC. Prepubertal Swiss-Webster mice were rendered dependent by intraperitoneal (i.p.) injection of MOR (2 mg/kg), twice daily for 9 days. On the 10th day, dependent animals received NAL (6 mg/kg, i.p.) 60 min after MOR, and another pool of dependent mice received BAC (2 mg/kg, i.p.) previous to NAL. Thirty min after NAL injection mice were sacrificed, brains were collected, and coronal sections were cut to perform autoradiographic studies with [3H]-[DAMGO]. Autoradiographic mapping showed a significant increase of µ-opioid receptor labeling during MOR withdrawal in nucleus accumbens core (NAcC), caudate putamen (CPu), mediodorsal thalamic nucleus (MDTh), basolateral and basomedial amygdala and ventral tegmental area vs respective control groups in male mice. In contrast, opiate receptor labeling was not significantly modified in any of the brain areas studied in withdrawn females. BAC reestablished µ-opioid receptor binding sites during MOR withdrawal only in NAcC, CPu and MDTh of males. The sexual dimorphism observed in the present study confirms previous reports indicating a greater sensitivity of males in response to MOR pharmacological properties. The present results suggest that the effect of BAC in preventing the expression of MOR withdrawal signs could be related with the ability of BAC to reestablish the µ-opioid receptor labeling in certain brain areas.th day, dependent animals received NAL (6 mg/kg, i.p.) 60 min after MOR, and another pool of dependent mice received BAC (2 mg/kg, i.p.) previous to NAL. Thirty min after NAL injection mice were sacrificed, brains were collected, and coronal sections were cut to perform autoradiographic studies with [3H]-[DAMGO]. Autoradiographic mapping showed a significant increase of µ-opioid receptor labeling during MOR withdrawal in nucleus accumbens core (NAcC), caudate putamen (CPu), mediodorsal thalamic nucleus (MDTh), basolateral and basomedial amygdala and ventral tegmental area vs respective control groups in male mice. In contrast, opiate receptor labeling was not significantly modified in any of the brain areas studied in withdrawn females. BAC reestablished µ-opioid receptor binding sites during MOR withdrawal only in NAcC, CPu and MDTh of males. The sexual dimorphism observed in the present study confirms previous reports indicating a greater sensitivity of males in response to MOR pharmacological properties. The present results suggest that the effect of BAC in preventing the expression of MOR withdrawal signs could be related with the ability of BAC to reestablish the µ-opioid receptor labeling in certain brain areas.3H]-[DAMGO]. Autoradiographic mapping showed a significant increase of µ-opioid receptor labeling during MOR withdrawal in nucleus accumbens core (NAcC), caudate putamen (CPu), mediodorsal thalamic nucleus (MDTh), basolateral and basomedial amygdala and ventral tegmental area vs respective control groups in male mice. In contrast, opiate receptor labeling was not significantly modified in any of the brain areas studied in withdrawn females. BAC reestablished µ-opioid receptor binding sites during MOR withdrawal only in NAcC, CPu and MDTh of males. The sexual dimorphism observed in the present study confirms previous reports indicating a greater sensitivity of males in response to MOR pharmacological properties. The present results suggest that the effect of BAC in preventing the expression of MOR withdrawal signs could be related with the ability of BAC to reestablish the µ-opioid receptor labeling in certain brain areas.vs respective control groups in male mice. In contrast, opiate receptor labeling was not significantly modified in any of the brain areas studied in withdrawn females. BAC reestablished µ-opioid receptor binding sites during MOR withdrawal only in NAcC, CPu and MDTh of males. The sexual dimorphism observed in the present study confirms previous reports indicating a greater sensitivity of males in response to MOR pharmacological properties. The present results suggest that the effect of BAC in preventing the expression of MOR withdrawal signs could be related with the ability of BAC to reestablish the µ-opioid receptor labeling in certain brain areas.