Protein synthesis and the heart shock/stress response after ischemia.

T S Nowak
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Abstract

It has been appreciated for many years that the recovery of brain protein synthesis activity following a transient ischemic insult lags considerably behind the normalization of brain energy metabolism. More recently, selective increases or decreases in the synthesis of specific proteins have been documented to occur during postischemic recirculation, the best characterized of such changes being the induction of proteins characteristic of the "heat shock" or "stress" response. This review will summarize these developments in the study of changes in gene expression following ischemia, with an emphasis on regional differences in the vulnerability of overall translational activity as well in the expression of stress proteins and their mRNAs. The neuronal localization of the 70 kDa heat shock protein, hsp70, after ischemia is contrasted with its largely glial and vascular induction following a hyperthermic stress. The lasting depression of protein synthesis and sustained expression of hsp70 mRNA in vulnerable hippocampal CA1 neurons appear to be mechanistically related and may constitute markers for cellular pathophysiology leading to neuronal cell loss. Elucidating the mechanisms responsible for cell-specific regulation of stress proteins and other gene products may eventually contribute to a more precise understanding of the evolution of brain injury at the molecular level following diverse insults.

缺血后蛋白质合成与心脏休克/应激反应。
多年来人们一直认识到,短暂性脑缺血损伤后脑蛋白合成活性的恢复远远落后于脑能量代谢的正常化。最近,特定蛋白质合成的选择性增加或减少已被证明发生在缺血后再循环过程中,这种变化的最佳特征是诱导具有“热休克”或“应激”反应特征的蛋白质。本文将对缺血后基因表达变化的研究进展进行综述,重点介绍整体翻译活性易感性的区域差异以及应激蛋白及其mrna的表达。70 kDa热休克蛋白hsp70在缺血后的神经元定位与高温应激后的神经胶质和血管诱导形成对比。易损海马CA1神经元中蛋白质合成的持续抑制和hsp70 mRNA的持续表达似乎与机制相关,并可能构成导致神经元细胞损失的细胞病理生理标志物。阐明细胞特异性调控应激蛋白和其他基因产物的机制可能最终有助于在分子水平上更精确地理解不同损伤后脑损伤的进化。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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