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The α2δ-1-NMDA Receptor Complex Is Critically Involved in Neuropathic Pain Development and Gabapentin Therapeutic Actions.α2δ-1-NMDA 受体复合物在神经病理性疼痛发展和加巴喷丁治疗作用中起关键作用。
Cell Rep. 2018 Feb 27;22(9):2307-2321. doi: 10.1016/j.celrep.2018.02.021.
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Alpha2delta-1 in SF1 Neurons of the Ventromedial Hypothalamus Is an Essential Regulator of Glucose and Lipid Homeostasis.室旁核 SF1 神经元中的 Alpha2delta-1 是葡萄糖和脂质稳态的重要调节因子。
Cell Rep. 2017 Dec 5;21(10):2737-2747. doi: 10.1016/j.celrep.2017.11.048.
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Interleukin-33 ameliorates ischemic brain injury in experimental stroke through promoting Th2 response and suppressing Th17 response.白细胞介素-33通过促进Th2反应和抑制Th17反应改善实验性中风中的缺血性脑损伤。
Brain Res. 2015 Feb 9;1597:86-94. doi: 10.1016/j.brainres.2014.12.005. Epub 2014 Dec 10.
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NKCC1 upregulation disrupts chloride homeostasis in the hypothalamus and increases neuronal activity-sympathetic drive in hypertension.NKCC1 的上调破坏了下丘脑的氯离子稳态,并增加了高血压中的神经元活动-交感神经驱动。
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Gabapentin reduces infarct volume but does not suppress peri-infarct depolarizations.加巴喷丁可减少梗死体积,但不能抑制梗死周围去极化。
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Stroke intervention pathways: NMDA receptors and beyond.脑卒中干预途径:NMDA 受体及其他
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Modeling stroke in mice - middle cerebral artery occlusion with the filament model.小鼠中风建模——丝线模型大脑中动脉闭塞法
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8
Pregabalin suppresses calcium-mediated proteolysis and improves stroke outcome.普瑞巴林抑制钙介导的蛋白水解作用,改善中风预后。
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Quantitative proteomics of the Cav2 channel nano-environments in the mammalian brain.哺乳动物脑内 Cav2 通道纳米环境的定量蛋白质组学。
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10
Targeted disruption of the voltage-dependent calcium channel alpha2/delta-1-subunit.电压依赖性钙通道α2/δ-1亚基的靶向破坏
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局灶性脑缺血再灌注通过 α2δ-1 结合的 NMDA 受体诱导脑损伤。

Focal Cerebral Ischemia and Reperfusion Induce Brain Injury Through α2δ-1-Bound NMDA Receptors.

机构信息

From the Department of Anesthesiology and Perioperative Medicine, Center for Neuroscience and Pain Research, University of Texas MD Anderson Cancer Center, Houston (Y.L., H.M., J.-J.Z., L.L., S.-R.C., J.Z., L.C., H.-L.P.).

Department of Clinical Laboratory Medicine, Zhongnan Hospital of Wuhan University, Wuhan, Hubei, China (Y.L.).

出版信息

Stroke. 2018 Oct;49(10):2464-2472. doi: 10.1161/STROKEAHA.118.022330.

DOI:10.1161/STROKEAHA.118.022330
PMID:30355118
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6205748/
Abstract

Background and Purpose- Glutamate NMDARs (N-methyl-D-aspartate receptors) play a major role in the initiation of ischemic brain damage. However, NMDAR antagonists have no protective effects in stroke patients, possibly because they impair physiological functions of NMDARs. α2δ-1 (encoded by Cacna2d1) is strongly expressed in many brain regions. We determined the contribution of α2δ-1 to NMDAR hyperactivity and brain injury induced by ischemia and reperfusion. Methods- Mice were subjected to 90 minutes of middle cerebral artery occlusion followed by 24 hours of reperfusion. Neurological deficits, brain infarct volumes, and calpain/caspase-3 activity in brain tissues were measured. NMDAR activity of hippocampal CA1 neurons was measured in an in vitro ischemic model. Results- Middle cerebral artery occlusion increased α2δ-1 protein glycosylation in the cerebral cortex, hippocampus, and striatum. Coimmunoprecipitation showed that ischemia rapidly enhanced the α2δ-1-NMDAR physical interaction in the mouse brain tissue. Inhibiting α2δ-1 with gabapentin, uncoupling the α2δ-1-NMDAR interaction with an α2δ-1 C terminus-interfering peptide, or genetically ablating Cacna2d1 had no effect on basal NMDAR currents but strikingly abolished oxygen-glucose deprivation-induced NMDAR hyperactivity in hippocampal CA1 neurons. Systemic treatment with gabapentin or α2δ-1 C-terminus-interfering peptide or Cacna2d1 genetic knock-out reduced middle cerebral artery occlusion-induced infarct volumes, neurological deficit scores, and calpain/caspase-3 activation in brain tissues. Conclusions- α2δ-1 is essential for brain ischemia-induced neuronal NMDAR hyperactivity, and α2δ-1-bound NMDARs mediate brain damage caused by cerebral ischemia. Targeting α2δ-1-bound NMDARs, without impairing physiological α2δ-1-free NMDARs, may be a promising strategy for treating ischemic stroke.

摘要

背景与目的-谷氨酸 NMDA 受体(N-甲基-D-天冬氨酸受体)在启动缺血性脑损伤中起主要作用。然而,NMDA 受体拮抗剂在中风患者中没有保护作用,可能是因为它们损害了 NMDA 受体的生理功能。α2δ-1(由 Cacna2d1 编码)在许多脑区强烈表达。我们确定了α2δ-1 对缺血再灌注引起的 NMDA 受体过度活跃和脑损伤的贡献。方法- 对小鼠进行 90 分钟的大脑中动脉闭塞,然后进行 24 小时再灌注。测量神经功能缺损、脑梗死体积和脑组织中的钙蛋白酶/半胱氨酸天冬氨酸蛋白酶-3 活性。在体外缺血模型中测量海马 CA1 神经元的 NMDA 受体活性。结果- 大脑中动脉闭塞增加了大脑皮质、海马和纹状体的α2δ-1 蛋白糖基化。共免疫沉淀显示,缺血迅速增强了小鼠脑组织中α2δ-1-NMDA 受体的物理相互作用。用加巴喷丁抑制α2δ-1、用α2δ-1 C 端干扰肽分离α2δ-1-NMDA 相互作用、或基因敲除 Cacna2d1 对基础 NMDA 电流没有影响,但显著消除了氧葡萄糖剥夺诱导的海马 CA1 神经元 NMDA 受体过度活跃。系统给予加巴喷丁或α2δ-1 C 端干扰肽或 Cacna2d1 基因敲除可减少大脑中动脉闭塞引起的梗死体积、神经功能缺损评分和脑组织中的钙蛋白酶/半胱氨酸天冬氨酸蛋白酶-3 激活。结论- α2δ-1 对于缺血性脑损伤引起的神经元 NMDA 受体过度活跃是必不可少的,而α2δ-1 结合的 NMDA 受体介导了脑缺血引起的脑损伤。靶向α2δ-1 结合的 NMDA 受体,而不损害生理上的α2δ-1 非结合 NMDA 受体,可能是治疗缺血性中风的一种有前途的策略。