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腺苷预处理诱导的快速缺血耐受导致细胞死亡的Bcl-2相互作用介质(Bim)被蛋白酶体降解。

Rapid ischemic tolerance induced by adenosine preconditioning results in Bcl-2 interacting mediator of cell death (Bim) degradation by the proteasome.

作者信息

Ordonez Andrea Nicole, Jessick Veronica Joy, Clayton Corrin Erin, Ashley Michelle Dawn, Thompson Simon John, Simon Roger Pancoast, Meller Robert

机构信息

Robert S. Dow Neurobiology Laboratories, Legacy Research Portland, Oregon 97232, USA.

出版信息

Int J Physiol Pathophysiol Pharmacol. 2010;2(1):36-44. Epub 2010 Jan 1.

PMID:20957068
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2955863/
Abstract

Rapid ischemic tolerance, induced one hour following ischemic preconditioning, is mediated via the ubiq-uitin-proteasome system and the degradation of the pro-apoptotic bcl-2 family protein Bim. Previous studies implicate adenosine A1 receptors in mediating rapid ischemic tolerance. Since the A1 adenosine receptor antagonist DPCPX (10µM) blocked rapid ischemic tolerance in our model, we investigated whether adenosine-mediated preconditioning induces rapid ischemic tolerance via the proteasomal degradation of Bim. Cultured rat cortical neurons were incubated for 60 minutes with either adenosine (1µM) or (-)-N(6)-(2-Phenyl-isopropyl) adenosine (RPIA (1µM)), prior to a harmful dose of ischemia (120min oxygen and glucose deprivation). Preconditioned cells had significantly lower levels of cell death following harmful ischemia when compared to non-preconditioned cells. The proteasome inhibitor MG132 (0.1µM) blocked the protective effect of adenosine pre-conditioning. Immunoblot analysis revealed a decrease in Bim protein levels in adenosine and RPIA preconditioned neurons. Adenosine preconditioning induced neuroprotection and Bim degradation was blocked by the MEK inhibitor UO126 (10µM). Our data suggests that pharmacological preconditioning with adenosine results in proteasomal Bim degradation mediated by p42/44 MAPK. Therefore, pharmacological approaches may be able to induce rapid ischemic tolerance via similar molecular mechanisms as ischemic preconditioning.

摘要

缺血预处理1小时后诱导产生的快速缺血耐受是通过泛素-蛋白酶体系统以及促凋亡bcl-2家族蛋白Bim的降解来介导的。先前的研究表明腺苷A1受体参与介导快速缺血耐受。由于A1腺苷受体拮抗剂DPCPX(10μM)在我们的模型中阻断了快速缺血耐受,我们研究了腺苷介导的预处理是否通过Bim的蛋白酶体降解诱导快速缺血耐受。在给予有害剂量的缺血(缺氧和无糖120分钟)之前,将培养的大鼠皮质神经元与腺苷(1μM)或(-)-N(6)-(2-苯基异丙基)腺苷(RPIA,1μM)孵育60分钟。与未预处理的细胞相比,预处理的细胞在有害缺血后细胞死亡水平显著降低。蛋白酶体抑制剂MG132(0.1μM)阻断了腺苷预处理的保护作用。免疫印迹分析显示,腺苷和RPIA预处理的神经元中Bim蛋白水平降低。腺苷预处理诱导神经保护作用,MEK抑制剂UO126(10μM)阻断了Bim的降解。我们的数据表明,腺苷的药理学预处理导致由p42/44 MAPK介导的蛋白酶体Bim降解。因此,药理学方法可能能够通过与缺血预处理类似的分子机制诱导快速缺血耐受。

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