Mitogen- and Stress-Activated Protein Kinase 1 Regulates Status Epilepticus-Evoked Cell Death in the Hippocampus.

IF 3.9 4区 医学 Q2 NEUROSCIENCES ASN NEURO Pub Date : 2017-09-01 DOI:10.1177/1759091417726607
Yun-Sik Choi, Paul Horning, Sydney Aten, Kate Karelina, Diego Alzate-Correa, J Simon C Arthur, Kari R Hoyt, Karl Obrietan
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引用次数: 9

Abstract

Mitogen-activated protein kinase (MAPK) signaling has been implicated in a wide range of neuronal processes, including development, plasticity, and viability. One of the principal downstream targets of both the extracellular signal-regulated kinase/MAPK pathway and the p38 MAPK pathway is Mitogen- and Stress-activated protein Kinase 1 (MSK1). Here, we sought to understand the role that MSK1 plays in neuroprotection against excitotoxic stimulation in the hippocampus. To this end, we utilized immunohistochemical labeling, a MSK1 null mouse line, cell viability assays, and array-based profiling approaches. Initially, we show that MSK1 is broadly expressed within the major neuronal cell layers of the hippocampus and that status epilepticus drives acute induction of MSK1 activation. In response to the status epilepticus paradigm, MSK1 KO mice exhibited a striking increase in vulnerability to pilocarpine-evoked cell death within the CA1 and CA3 cell layers. Further, cultured MSK1 null neurons exhibited a heighted level of N-methyl-D-aspartate-evoked excitotoxicity relative to wild-type neurons, as assessed using the lactate dehydrogenase assay. Given these findings, we examined the hippocampal transcriptional profile of MSK1 null mice. Affymetrix array profiling revealed that MSK1 deletion led to the significant (>1.25-fold) downregulation of 130 genes and an upregulation of 145 genes. Notably, functional analysis indicated that a subset of these genes contribute to neuroprotective signaling networks. Together, these data provide important new insights into the mechanism by which the MAPK/MSK1 signaling cassette confers neuroprotection against excitotoxic insults. Approaches designed to upregulate or mimic the functional effects of MSK1 may prove beneficial against an array of degenerative processes resulting from excitotoxic insults.

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丝裂原和应激激活蛋白激酶1调节海马癫痫诱发的细胞死亡状态。
有丝分裂原活化蛋白激酶(MAPK)信号传导与广泛的神经元过程有关,包括发育、可塑性和生存能力。细胞外信号调节激酶/MAPK途径和p38 MAPK途径的主要下游靶点之一是丝裂原和应激激活蛋白激酶1 (MSK1)。在这里,我们试图了解MSK1在海马中抗兴奋毒性刺激的神经保护中所起的作用。为此,我们利用免疫组织化学标记、MSK1缺失小鼠系、细胞活力测定和基于阵列的分析方法。最初,我们发现MSK1在海马的主要神经元细胞层中广泛表达,并且癫痫持续状态驱动急性诱导MSK1激活。作为对癫痫持续状态范式的响应,MSK1 KO小鼠在CA1和CA3细胞层中表现出对匹罗卡品诱发的细胞死亡的易感性显著增加。此外,与野生型神经元相比,培养的MSK1缺失神经元表现出更高水平的n -甲基- d-天冬氨酸诱发的兴奋毒性,这是通过乳酸脱氢酶测定来评估的。鉴于这些发现,我们检查了MSK1缺失小鼠的海马转录谱。Affymetrix阵列分析显示,MSK1缺失导致130个基因显著(>1.25倍)下调,145个基因上调。值得注意的是,功能分析表明,这些基因的一个子集有助于神经保护信号网络。总之,这些数据为MAPK/MSK1信号盒对兴奋毒性损伤的神经保护机制提供了重要的新见解。旨在上调或模拟MSK1功能作用的方法可能对由兴奋毒性损伤引起的一系列退行性过程有益。
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来源期刊
ASN NEURO
ASN NEURO NEUROSCIENCES-
CiteScore
7.70
自引率
4.30%
发文量
35
审稿时长
>12 weeks
期刊介绍: ASN NEURO is an open access, peer-reviewed journal uniquely positioned to provide investigators with the most recent advances across the breadth of the cellular and molecular neurosciences. The official journal of the American Society for Neurochemistry, ASN NEURO is dedicated to the promotion, support, and facilitation of communication among cellular and molecular neuroscientists of all specializations.
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