氧化应激会损害热应激反应，延缓未折叠蛋白的恢复。

Oxidative stress impairs the heat stress response and delays unfolded protein recovery.

机构信息

Division of Molecular Oncology and Molecular Diagnosis, Sapporo Medical University School of Medicine, Sapporo, Japan.

出版信息

PLoS One. 2009 Nov 11;4(11):e7719. doi: 10.1371/journal.pone.0007719.

DOI:10.1371/journal.pone.0007719

PMID:19936221

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2777389/

Abstract

BACKGROUND

Environmental changes, air pollution and ozone depletion are increasing oxidative stress, and global warming threatens health by heat stress. We now face a high risk of simultaneous exposure to heat and oxidative stress. However, there have been few studies investigating their combined adverse effects on cell viability.

PRINCIPAL FINDINGS

Pretreatment of hydrogen peroxide (H(2)O(2)) specifically and highly sensitized cells to heat stress, and enhanced loss of mitochondrial membrane potential. H(2)O(2) exposure impaired the HSP40/HSP70 induction as heat shock response (HSR) and the unfolded protein recovery, and enhanced eIF2alpha phosphorylation and/or XBP1 splicing, land marks of ER stress. These H(2)O(2)-mediated effects mimicked enhanced heat sensitivity in HSF1 knockdown or knockout cells. Importantly, thermal preconditioning blocked H(2)O(2)-mediated inhibitory effects on refolding activity and rescued HSF1 +/+ MEFs, but neither blocked the effects nor rescued HSF1 -/- MEFs. These data strongly suggest that inhibition of HSR and refolding activity is crucial for H(2)O(2)-mediated enhanced heat sensitivity.

CONCLUSIONS

H(2)O(2) blocks HSR and refolding activity under heat stress, thereby leading to insufficient quality control and enhancing ER stress. These uncontrolled stress responses may enhance cell death. Our data thus highlight oxidative stress as a crucial factor affecting heat tolerance.

摘要

背景

环境变化、空气污染和臭氧消耗正在增加氧化应激，而全球变暖通过热应激威胁健康。我们现在面临着同时暴露于热和氧化应激的高风险。然而，很少有研究调查它们对细胞活力的联合不良影响。

主要发现

过氧化氢（H₂O₂）预处理特异性且高度敏化细胞对热应激，并增强线粒体膜电位的丧失。H₂O₂暴露损害了热休克反应（HSR）和未折叠蛋白恢复的 HSP40/HSP70 诱导，增强了 eIF2alpha 磷酸化和/或 XBP1 剪接，内质网应激的标志。这些 H₂O₂介导的效应模拟了 HSF1 敲低或敲除细胞中增强的热敏感性。重要的是，热预处理阻断了 H₂O₂对重折叠活性的抑制作用，并挽救了 HSF1+/+ MEFs，但既没有阻断作用，也没有挽救 HSF1-/MEFs。这些数据强烈表明，HSR 和重折叠活性的抑制对于 H₂O₂介导的增强热敏感性至关重要。

结论

H₂O₂在热应激下阻断 HSR 和重折叠活性，从而导致质量控制不足和内质网应激增强。这些不受控制的应激反应可能会增强细胞死亡。因此，我们的数据强调了氧化应激是影响耐热性的关键因素。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e9c6/2777389/9259167069c5/pone.0007719.g001.jpg

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氧化应激会损害热应激反应，延缓未折叠蛋白的恢复。

Oxidative stress impairs the heat stress response and delays unfolded protein recovery.

机构信息

出版信息

BACKGROUND

PRINCIPAL FINDINGS

CONCLUSIONS

背景

主要发现

结论

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