Influence of MLC901 Alone and with Moderate Exercise on Pain Response Concurrent Due to Stress of Male Mice.

BACKGROUND: Physical exercise is known to have a positive effect on pain responses induced by stress, while chronic stress causes a negative effect on cognitive abilities. Depending on the type, duration, and intensity of the stressor, it can induce analgesia or hyperalgesia. Furthermore, the beneficial effects of traditional Chinese medicine MLC901 on stress processes have been reported. Here, the effects of MLC901 and moderate physical activity on pain response in restraint-stressed mice was investigated. MATERIALS AND METHODS: Male NMRI mice were used in this study and were restrained in plexiglass mesh restrainers for induction of chronic restraint stress. Treadmill exercise was carried out for moderated exercise, 5 days/week for 4 weeks. MLC901 was intraperitoneally administered in the experimental groups. The pain response of the adult NMRI mice was detected via the hot-plate test. RESULTS: It was showed that intraperitoneal administration of MLC901 dose (0.4 but not 0.1 and 0.2 mg/kg; once/2 days; for 25 days) resulted in the decreased percentage of time in the hot plate, indicating hyperalgesia. Moreover, restraint stress for 3 but not 6 and 9 hours/day elicit hyperalgesia in mice. The data showed that subthreshold dose of MLC901 (0.1 mg/kg) reduced hyperalgesia in 3-day stressed mice. Moderate treadmill running (10 meters/min for 30 min/day, 5 days/ week) potentiated the effect of 6 and 9 days on pain (induced hyperalgesia) that was blocked by MLC901 (0.1 mg/kg). CONCLUSION: Our findings indicated that subthreshold dose of MLC901 alone or when it associated with moderate exercise decreased hyperalgesia induced by stress, indicating the protective effect of MLC901.

Swimming improves the emotional memory deficit by scopolamine via mu opioid receptors.

AIMS: The aim of the present study was to investigate the effect of swimming exercise on elevated plus-maze (EPM)-associated memory deficit induced by intra-CA1 injection of scopolamine (a muscarinic acetylcholine receptor antagonist used to model Alzheimer's disease in rodents) in male mice. In addition, involvement of the mu opioid receptors in this phenomenon was investigated. MAIN METHODS: Bilateral guide cannulae were implanted to allow intra-CA1 microinjections. KEY FINDINGS: Data showed that mice with 10 and 20 days of swimming, only acquired the emotional memory, while 30 days of swimming exercise improved it. On the other hand, pretest intra-CA1 injection of scopolamine at the doses of 2 and 3 but not 1 µg/mouse reduced the emotional memory. Our results demonstrated that 20 days of swimming by itself and without any drug injection restored the emotional memory deficit induced by intra-CA1 injection of scopolamine, only at the dose of 2 but not 3 µg/mouse. Moreover, once daily injection of the subthreshold doses of morphine (2.5 and 5 mg/kg, i.p.) during the last 7 days of the 20 day-swimming intervention, improved the emotional memory deficit induced by scopolamine (3 µg/mouse) and this effect could be blocked by the subthreshold doses of naloxone (0.2 and 0.4 mg/kg). It was noted that all previous interventions did not alter the anxiety-like behaviors. SIGNIFICANCE: Swimming improved the emotional memory by itself and restored the emotional memory deficit induced by the intra-CA1 injection of scopolamine. Mu opioid receptor-dependent mechanism(s) is(are) suggested to play a role in this phenomenon.