冷诱导 RNA 结合蛋白调控线粒体相关内质网膜介导的 Ca2+ 转运在低体温脑复苏中发挥关键作用。

IF 4.6 2区 医学 Q1 NEUROSCIENCES
Yu Gao , Haoxin Liu , Yaqing Zhou , Shenquan Cai , Jie Zhang , Jie Sun , Manlin Duan
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引用次数: 0

摘要

心脏骤停是一个全球性的健康问题,造成的死亡人数超过了许多其他疾病。低温疗法通常用于治疗心脏骤停导致的继发性脑损伤。先前的研究表明,低体温时会在特定脑区诱导 CIRP,并抑制线粒体凋亡因子。然而,低体温诱导的 CIRP 发挥抗凋亡作用的具体机制尚不清楚。本研究旨在探讨冷诱导 RNA 结合蛋白(CIRP)在低体温脑复苏过程中线粒体相关内质网膜(MAM)介导的 Ca2+ 转运中的作用。利用 shRNA 转染干扰 CIRP 的表达,观察 CIRP 对 MAM 结构和功能的影响。低温诱导 CIRP 可降低 MAM 中钙转运体 IP3R 和 VDAC1 的表达,降低线粒体中钙的浓度,减少 ROS 的表达,稳定线粒体膜电位。免疫荧光和免疫沉淀显示,CIRP 可直接与 IP3R-VDAC1 复合物相互作用,从而改变 MAM 的结构,抑制钙离子运输,改善体内和体外线粒体功能。体内和体外实验均证实,低体温诱导的 CIRP 可作用于 MAM 中的钙通道 IP3R-VDAC1,减轻线粒体中的钙超载,改善线粒体的能量代谢,从而在神经元复苏中发挥作用。这项研究有助于理解低温疗法,并确定脑损伤治疗的潜在靶点。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Cold inducible RNA binding protein-regulated mitochondria associated endoplasmic reticulum membranes-mediated Ca2+ transport play a critical role in hypothermia cerebral resuscitation

Cold inducible RNA binding protein-regulated mitochondria associated endoplasmic reticulum membranes-mediated Ca2+ transport play a critical role in hypothermia cerebral resuscitation

Cardiac arrest is a global health issue causing more deaths than many other diseases. Hypothermia therapy is commonly used to treat secondary brain injury resulting from cardiac arrest. Previous studies have shown that CIRP is induced in specific brain regions during hypothermia and inhibits mitochondrial apoptotic factors. However, the specific mechanisms by which hypothermia-induced CIRP exerts its anti-apoptotic effect are still unknown. This study aims to investigate the role of Cold-inducible RNA-binding protein (CIRP) in mitochondrial-associated endoplasmic reticulum membrane (MAM)-mediated Ca2+ transport during hypothermic brain resuscitation.We constructed a rat model of cardiac arrest and resuscitation and hippocampal neuron oxygen-glucose deprivation/reoxygenation model. We utilized shRNA transfection to interfere the expression of CIRP and observe the effect of CIRP on the structure and function of MAM.Hypothermia induced CIRP can reduce the apoptosis of hippocampal neurons, and improve the survival rate of rats. Hypothermia induced CIRP can reduce the expressions of calcium transporters IP3R and VDAC1 in MAM, reduce the concentration of calcium in mitochondria, decrease the expression of ROS, and stabilize the mitochondrial membrane potential. Immunofluorescence and immunocoprecipitation showed that CIRP could directly interact with IP3R-VDAC1 complex, thereby changing the structure of MAM, inhibiting calcium transportation and improving mitochondrial function in vivo and vitro.Both in vivo and in vitro experiments have confirmed that hypothermia induced CIRP can act on the calcium channel IP3R-VDAC1 in MAM, reduce the calcium overload in mitochondria, improve the energy metabolism of mitochondria, and thus play a role in neuron resuscitation. This study contributes to understanding hypothermia therapy and identifies potential targets for brain injury treatment.

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来源期刊
Experimental Neurology
Experimental Neurology 医学-神经科学
CiteScore
10.10
自引率
3.80%
发文量
258
审稿时长
42 days
期刊介绍: Experimental Neurology, a Journal of Neuroscience Research, publishes original research in neuroscience with a particular emphasis on novel findings in neural development, regeneration, plasticity and transplantation. The journal has focused on research concerning basic mechanisms underlying neurological disorders.
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