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Objective To investigate the effect of cortical 8-opioid receptor (DOR) on oxygen-glucose deprivation-induced (OGD-induced) neuronal injury. Methods Primary cultured cortical neurons incubated with selective DOR agonist (TAN-67) and antagonist (naltrindole) or PKC inhibitor (chelerythrine, CHE) were exposed to OGD. Lactate dehydrogenase (LDH) release was detected after 24 h reperfusion. The expression levels of DOR were measured by Western blot. Results Compared with OGD group, TAN-67 significantly decreased OGD-indueed LDH release, and increased the expression levels of DOR, while nahrindole aggravated neuronal injury and decreased the DOR protein expression. CHE could abolish the LDH down-regulation induced by TAN-67 plus OGD (P< 0.05, compared with TAN-67 treated group). Conclusions DOR activation protects neurons against OGD injury. PKC might take part in the neuroprotection pathways of DOR.
RESUMO
OBJECTIVE: To explore the effect of delta-opioid receptor (DOR) in electroacupuncture (EA) protecting the brain against acute ischemic injury. METHODS: Fifty-one rats were randomly divided into sham ischemia group, ischemia group, sham EA group, EA group, and EA+DOR antagonist (naltrindole) group. Transient focal cerebral ischemia (1 hour) was induced in rat brain by middle cerebral artery occlusion (MCAO) method. EA was applied on Shuigou (GV 26) and Neiguan (PC 6) for 30 min, starting immediately after the onset of reperfusion. Neurological deficit scores and volume of cerebral infarction were detected after 24-hour reperfusion. Other 12 rats were randomly divided into sham ischemia group, ischemia group, EA group and EA + naltrindole group. DOR protein expressions were assessed by Western blotting after 24-hour reperfusion. RESULTS: In comparison with the ischemia group and sham EA group, EA significantly reduced ischemic infarction and neurological deficits (P0.05). When naltrindole was combined with EA, the naltrindole completely abolished the EA-induced protection in ischemic infarction and neurological deficits, and also arrested the expression of DOR. CONCLUSION: EA can up-regulate DOR expression and protect the brain from ischemia-reperfusion injury.