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通过ASIC1a介导的酸毒性在氧糖剥夺期间介导细胞死亡并消除兴奋毒性。

Acidotoxicity via ASIC1a Mediates Cell Death during Oxygen Glucose Deprivation and Abolishes Excitotoxicity.

作者信息

Bhowmick Saurav, Moore Jeanette T, Kirschner Daniel L, Curry Mary C, Westbrook Emily G, Rasley Brian T, Drew Kelly L

机构信息

Department of Chemistry and Biochemistry and ‡Institute of Arctic Biology, University of Alaska Fairbanks , Fairbanks, Alaska 99775, United States.

出版信息

ACS Chem Neurosci. 2017 Jun 21;8(6):1204-1212. doi: 10.1021/acschemneuro.6b00355. Epub 2017 Mar 1.

Abstract

Ischemic reperfusion (I/R) injury is associated with a complex and multifactorial cascade of events involving excitotoxicity, acidotoxicity, and ionic imbalance. While it is known that acidosis occurs concomitantly with glutamate-mediated excitotoxicity during brain ischemia, it remains elusive how acidosis-mediated acidotoxicity interacts with glutamate-mediated excitotoxicity. Here, we investigated the effect of acidosis on glutamate-mediated excitotoxicity in acute hippocampal slices. We tested the hypothesis that mild acidosis protects against I/R injury via modulation of NMDAR, but produces injury via activation of acid sensing ion channels (ASIC1a). Using a novel microperfusion approach, we monitored time course of injury in acutely prepared, adult hippocampal slices. We varied the duration of insult to delay the return to preinsult conditions to determine if injury was caused by the primary insult or by the modeled reperfusion phase. We also manipulated pH in presence and absence of oxygen glucose deprivation (OGD). The role of ASIC1a and NMDAR was deciphered by treating the slices with and without an ASIC or NMDAR antagonist. Our results show that injury due to OGD or low pH occurs during the insult rather than the modeled reperfusion phase. Injury mediated by low pH or low pH OGD requires ASIC1a and is independent of NMDAR activation. These findings point to ASIC1a as a mediator of ischemic cell death caused by stroke and cardiac arrest.

摘要

缺血再灌注(I/R)损伤与一系列复杂且多因素的事件级联相关,这些事件涉及兴奋性毒性、酸毒性和离子失衡。虽然已知在脑缺血期间酸中毒与谷氨酸介导的兴奋性毒性同时发生,但酸中毒介导的酸毒性如何与谷氨酸介导的兴奋性毒性相互作用仍不清楚。在此,我们研究了酸中毒对急性海马切片中谷氨酸介导的兴奋性毒性的影响。我们测试了这样一个假设,即轻度酸中毒通过调节NMDAR来预防I/R损伤,但通过激活酸敏感离子通道(ASIC1a)产生损伤。使用一种新颖的微灌注方法,我们监测了急性制备的成年海马切片中的损伤时间进程。我们改变损伤持续时间以延迟恢复到损伤前状态,以确定损伤是由原发性损伤还是模拟的再灌注阶段引起的。我们还在有氧葡萄糖剥夺(OGD)存在和不存在的情况下调节pH值。通过用或不用ASIC或NMDAR拮抗剂处理切片来解读ASIC1a和NMDAR的作用。我们的结果表明,OGD或低pH引起的损伤发生在损伤期间而非模拟的再灌注阶段。低pH或低pH OGD介导的损伤需要ASIC1a,且与NMDAR激活无关。这些发现表明ASIC1a是中风和心脏骤停导致的缺血性细胞死亡的介质。

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