S Dunbar1, T L Yaksh. 1. Department of Anesthesiology, University of California, San Diego, La Jolla 92103, USA.
Abstract
BACKGROUND: MK801, an N-methyl-D-aspartate receptor antagonist, has recently been reported to attenuate tolerance to, and withdrawal from morphine. This study analyzes tolerance and withdrawal in a chronic intrathecal coinfusion model of morphine and MK801. METHODS: Intrathecal catheters, attached to 7-day miniosmotic infusion pumps, were implanted in rats and infused with saline, 20 nM/h morphine, MK801 (10 and 3 nM/h) + morphine; and 10 nM/h MK801. Analgesia was measured on the hot plate daily. On the day 7, groups received 3 mg/kg intraperitoneal naloxone and six signs of withdrawal were assessed: vocalization to air motion or light touch, abnormal posture, spontaneous vocalization, escape attempts, "wet dog shakes," and ejaculation. Similar groups were tested only on days 1 and 7. Intrathecal morphine dose-response curves were obtained on day 8. A separate morphine-tolerant group received 10 nM MK801 on day 7. Rats from each group received 10 nM intrathecal morphine 1 week later. RESULTS: Coinfusion of MK801 with morphine resulted in a dose-dependent preservation of effect, and attenuated three of six signs of withdrawal. Coinfusion of MK801 (10 and 3 nM/h) prevented the reduction of potency observed with morphine alone. ED50 values (maximum percent effect, nM morphine) were: saline (16), morphine (496), MK801 (10 nM/h) + morphine (4), and 10 nM/h MK801 (0.3). Acute administration of MK801 was ineffective in restoring sensitivity to morphine. One week after cessation of infusion, there was no significant difference between groups. CONCLUSIONS: Chronic spinal MK801 attenuates tolerance to, and withdrawal from spinal morphine in a dose-dependent fashion, supporting the hypothesis that N-methyl-D-aspartate receptor activity plays a role in the reorganization of spinal function produced by chronic opioid receptor activation. Chronic intrathecal MK801 appears to sensitize the spinal cord to intrathecal morphine.
BACKGROUND:MK801, an N-methyl-D-aspartate receptor antagonist, has recently been reported to attenuate tolerance to, and withdrawal from morphine. This study analyzes tolerance and withdrawal in a chronic intrathecal coinfusion model of morphine and MK801. METHODS: Intrathecal catheters, attached to 7-day miniosmotic infusion pumps, were implanted in rats and infused with saline, 20 nM/h morphine, MK801 (10 and 3 nM/h) + morphine; and 10 nM/h MK801. Analgesia was measured on the hot plate daily. On the day 7, groups received 3 mg/kg intraperitoneal naloxone and six signs of withdrawal were assessed: vocalization to air motion or light touch, abnormal posture, spontaneous vocalization, escape attempts, "wet dog shakes," and ejaculation. Similar groups were tested only on days 1 and 7. Intrathecal morphine dose-response curves were obtained on day 8. A separate morphine-tolerant group received 10 nM MK801 on day 7. Rats from each group received 10 nM intrathecal morphine 1 week later. RESULTS: Coinfusion of MK801 with morphine resulted in a dose-dependent preservation of effect, and attenuated three of six signs of withdrawal. Coinfusion of MK801 (10 and 3 nM/h) prevented the reduction of potency observed with morphine alone. ED50 values (maximum percent effect, nM morphine) were: saline (16), morphine (496), MK801 (10 nM/h) + morphine (4), and 10 nM/h MK801 (0.3). Acute administration of MK801 was ineffective in restoring sensitivity to morphine. One week after cessation of infusion, there was no significant difference between groups. CONCLUSIONS: Chronic spinal MK801 attenuates tolerance to, and withdrawal from spinal morphine in a dose-dependent fashion, supporting the hypothesis that N-methyl-D-aspartate receptor activity plays a role in the reorganization of spinal function produced by chronic opioid receptor activation. Chronic intrathecal MK801 appears to sensitize the spinal cord to intrathecal morphine.
Authors: Camron D Bryant; Kristofer W Roberts; Janet S Byun; Michael S Fanselow; Christopher J Evans Journal: Pharmacol Biochem Behav Date: 2006-12-28 Impact factor: 3.533