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Effect of 2-AG on A-type potassium channel currents in primarily cul-tured rat caudate nucleus neurons with kainic acid-induced injury / 中国病理生理杂志
Chinese Journal of Pathophysiology ; (12): 2113-2122, 2023.
Article in Zh | WPRIM | ID: wpr-1023819
Responsible library: WPRO
ABSTRACT
AIM:To explore the modulation of 2-arachidonoylglycerol(2-AG)on A-type potassium channels injured by kainic acid(KA)and its molecular mechanism.METHODS:Primary cultured caudate nucleus(CN)neurons were treated with KA to establish a neuroexcitatory toxicity model.Whole-cell patch clamp recording was performed to ob-serve the changes of electrical activity of A-type potassium channels induced by KA-induced excitatory toxicity and 2-AG-mediated neuroprotective effect.RESULTS:In cultured CN neurons,patch clamp experiments confirmed that KA signifi-cantly decreased the A-type potassium channel current(IA)density and changed the electrical function of CN neurons:the slope(k)of inactivation curve and the recovery time constant(τ)after inactivation of A-type potassium channels in CN neurons were significantly increased.The experiments showed that the increase in 2-AG level,whether using 2-AG direct-ly or application of monoacylglycerol lipase inhibitor URB602 to decrease 2-AG metabolism and increase 2-AG level indi-rectly,inhibited the KA-induced reduction of IA density and the changes of electrical activity of A-type potassium channels through cannabinoid receptor 1(CB1R):2-AG effectively antagonized the KA-induced increases in τ value and k value for inactivation of A-type potassium channels,which accelerated the recovery process after inactivation of the channels.CONCLUSION:The changes of the electrical characteristics of A-type potassium channels may be one of the mecha-nisms of KA-induced excitotoxic injury of CN neurons.The 2-AG plays a neuroprotective role in KA-induced neuroexcit-atory toxic model by regulating the function of A-type potassium channels through CB1R.
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Full text: 1 Index: WPRIM Language: Zh Journal: Chinese Journal of Pathophysiology Year: 2023 Type: Article
Full text: 1 Index: WPRIM Language: Zh Journal: Chinese Journal of Pathophysiology Year: 2023 Type: Article