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氧化应激通过激活Cdk5抑制FOXO1的神经元损伤及其机制 被引量:8

The role of oxidative stress in inhibiting FOXO1 through activating Cdk5 in neuronal damage
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摘要 目的探究氧化应激通过激活细胞周期蛋白依赖性激酶5(cyclin-dependent kinase 5, Cdk5)抑制叉头框转录因子O亚家族蛋白1(forkhead box O1, FOXO1)的神经元损伤的具体机制。方法在HEK细胞中,共同转染过表达P39/Cdk5和FOXO1-WT或者FOXO1-S249A突变体,利用特异性磷酸化抗体pS249-FOXO1能够特异识别FOXO1的Ser249位点磷酸化特点,通过Western blot检测Cdk5/p39对FOXO1的磷酸化。通过体外培养HEK细胞中过表达Cdk5、p39和FOXO1,免疫共沉淀探究Cdk5和FOXO1以及Cdk5和p39的相互作用。在原代神经元过表达不同的Cdk5激活因子(p25、p35、p39)以及Cdk5激酶复合物,使用双荧光素酶实验探究其不同组合对FOXO1转录活性的影响。用Cdk5抑制剂rocovitine干预,观察其对FOXO1出入的影响;同时通过核质分离的方法对比了Cdk5杂合小鼠和野生型大脑皮层组织的FOXO1核质定位。分别用H_2O_2、glutamate处理神经元,通过Western blot观察氧化应激对Cdk5的活性调节,同时用双荧光素酶实验探究其对FOXO1转录因子的影响;最后通过caspase-3染色观察H_2O_2、glutamate的不同时间梯度处理对神经元凋亡的影响。结果 Cdk5和p39能够直接与FOXO1相互作用,并磷酸化FOXO1的Ser249位点。激活Cdk5能够显著抑制FOXO1的转录活性,而用Cdk5抑制剂(roscovitine)能够显著提高FOXO1的转录活性并诱导FOXO1入核。与野生型对比,在Cdk5杂合子中,FOXO1蛋白在细胞核中定位显著提高。H_2O_2和glutamate处理诱导p35切割形成p25,同时抑制FOXO1的转录活性,而敲低Cdk5能够缓解H_2O_2和glutamate对FOXO1的转录活性的抑制。通过H_2O_2和glutamate处理的原代神经元,caspase3染色显著增加。结论 Cdk5/p39可以磷酸化FOXO1-ser249位点,并抑制FOXO1的转录活性;而氧化应激能够通过激活Cdk5,抑制FOXO1的转录活性,并诱导神经元凋亡。 Objective To investigate the role of oxidative stress in inhibiting forkhead box O1 (FOXO1) through activating cyclin-dependent kinase 5 (Cdk5) in neuronal damage. Methods Cdk5 was coexpressed with p39 in HEK cells together with wild-type FOXO1 or a nonphosphorylatable FOXO1-S249A mutant;FOXO1 phosphorylation was immunoblotted through pS249-FOXO1 antibody which specific recognized FOXO1 Ser249 phosphorylation.Cdk5 or p39 was coexpressed in HEK cells together with FOXO1 and their interaction was explored through Co-IP.In primary cortical culture neurons,various Cdk5 activators (p25,p35,and p39) were overexpressed together with Cdk5.FOXO1 transcriptional activity was tested by luciferase assay.We detected the effect of Cdk5 inhibitor roscovitine on FOXO1 transcriptional activity in primary neurons.We compared FOXO1 subcellular localization of wild type with Cdk5 heterozygous mice cortical brain tissues through cytoplasmic and nuclear extracts.In addition,we administered oxidative stress (H 2O 2 and glutamate treatment) in primary neurons and examined the effect on the cdk5 activity by Western blot,FOXO1 transcriptional activity by luciferase assay,and neuronal damage through stained caspase3. Results ① Identification of Cdk5/p39 was capable of phosphorylating the transcription factor FOXO1 at Ser249,and associated with it.② Activated Cdk5 dramatically inhibited FOXO1 transcriptional activity.In contrast,roscovitine,Cdk5 inhibitor,significantly increased FOXO1 transcriptional activity and led to FOXO1 translocation into the nucleus.③ FOXO1 protein was found predominately in the nucleus in the Cdk5 heterozygous mice.④ H 2O 2 or glutamate treatment promoted p35 to be cleaved to p25,and inhibited FOXO1 transcriptional activity.Importantly,this effect of oxidative stress was abolished when Cdk5 was silenced by shRNA.⑤ Oxidative stress dramatically increased caspase3 immunostaining in primary neurons. Conclusion Cdk5/p39 inhibits FOXO1 activity through phosphorylation and association.Moreover,oxidative stress i
作者 杨慧丽 陈星宇 郑维红 YANG Hui-li;CHEN Xing-yu;ZHENG Wei-hong(Department of Neurology,Zhongshan Hospital,Medical College of Xiamen University,Xiamen 361004,China)
机构地区 厦门大学附属中山医院神经内科
出处 《西安交通大学学报(医学版)》 CAS CSCD 北大核心 2019年第3期399-405,共7页 Journal of Xi’an Jiaotong University(Medical Sciences)
关键词 氧化应激 激活细胞周期蛋白依赖性激酶5(Cdk5) 叉头框转录因子O亚家族蛋白1(FOXO1) caspase-3 oxidative stress Cdk5 FOXO1 caspase3
分类号 R741 [医药卫生—神经病学与精神病学]
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同被引文献94

引证文献8

二级引证文献20

西安交通大学学报(医学版)
2019年 第3期

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