TRPM2-Ca(2+)-CAMK2-BECN1信号通路在氧化应激诱导的自噬抑制中的机制研究

Mechanistic study of TRPM2-Ca(2+)-CAMK2-BECN1 signaling in oxidative stress-induced autophagy inhibition.

作者信息

Wang Qian, Guo Wenjing, Hao Baixia, Shi Xianli, Lu Yingying, Wong Connie W M, Ma Victor W S, Yip Timothy T C, Au Joseph S K, Hao Quan, Cheung King-Ho, Wu Wutian, Li Gui-Rong, Yue Jianbo

机构信息

a Department of Biomedical Sciences , City University of Hong Kong , Hong Kong , China.

b School of Biomedical Sciences, University of Hong Kong , Hong Kong , China.

出版信息

Autophagy. 2016 Aug 2;12(8):1340-54. doi: 10.1080/15548627.2016.1187365. Epub 2016 May 31.

DOI:10.1080/15548627.2016.1187365

PMID:27245989

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4968236/

Abstract

Reactive oxygen species (ROS) have been commonly accepted as inducers of autophagy, and autophagy in turn is activated to relieve oxidative stress. Yet, whether and how oxidative stress, generated in various human pathologies, regulates autophagy remains unknown. Here, we mechanistically studied the role of TRPM2 (transient receptor potential cation channel subfamily M member 2)-mediated Ca(2+) influx in oxidative stress-mediated autophagy regulation. On the one hand, we demonstrated that oxidative stress triggered TRPM2-dependent Ca(2+) influx to inhibit the induction of early autophagy, which renders cells more susceptible to death. On the other hand, oxidative stress induced autophagy (and not cell death) in the absence of the TRPM2-mediated Ca(2+) influx. Moreover, in response to oxidative stress, TRPM2-mediated Ca(2+) influx activated CAMK2 (calcium/calmodulin dependent protein kinase II) at levels of both phosphorylation and oxidation, and the activated CAMK2 subsequently phosphorylated BECN1/Beclin 1 on Ser295. Ser295 phosphorylation of BECN1 in turn decreased the association between BECN1 and PIK3C3/VPS34, but induced binding between BECN1 and BCL2. Clinically, acetaminophen (APAP) overdose is the most common cause of acute liver failure worldwide. We demonstrated that APAP overdose also activated ROS-TRPM2-CAMK2-BECN1 signaling to suppress autophagy, thereby causing primary hepatocytes to be more vulnerable to death. Inhibiting the TRPM2-Ca(2+)-CAMK2 cascade significantly mitigated APAP-induced liver injury. In summary, our data clearly demonstrate that oxidative stress activates the TRPM2-Ca(2+)-CAMK2 cascade to phosphorylate BECN1 resulting in autophagy inhibition.

摘要

活性氧（ROS）已被普遍认为是自噬的诱导剂，而自噬反过来被激活以减轻氧化应激。然而，在各种人类疾病中产生的氧化应激是否以及如何调节自噬仍然未知。在这里，我们从机制上研究了瞬时受体电位阳离子通道亚家族M成员2（TRPM2）介导的Ca(2+)内流在氧化应激介导的自噬调节中的作用。一方面，我们证明氧化应激触发TRPM2依赖性Ca(2+)内流以抑制早期自噬的诱导，这使细胞更容易死亡。另一方面，在没有TRPM2介导的Ca(2+)内流的情况下，氧化应激诱导自噬（而非细胞死亡）。此外，响应氧化应激，TRPM2介导的Ca(2+)内流在磷酸化和氧化水平上激活钙/钙调蛋白依赖性蛋白激酶II（CAMK2），并且激活的CAMK2随后在Ser295位点磷酸化BECN1/Beclin 1。BECN1的Ser295磷酸化反过来降低了BECN1与PIK3C3/VPS34之间的关联，但诱导了BECN1与BCL2之间的结合。临床上，对乙酰氨基酚（APAP）过量是全球急性肝衰竭最常见的原因。我们证明APAP过量也激活ROS-TRPM2-CAMK2-BECN1信号传导以抑制自噬，从而使原代肝细胞更容易死亡。抑制TRPM2-Ca(2+)-CAMK2级联反应可显著减轻APAP诱导的肝损伤。总之，我们的数据清楚地表明氧化应激激活TRPM2-Ca(2+)-CAMK2级联反应以磷酸化BECN1，导致自噬抑制。

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TRPM2-Ca(2+)-CAMK2-BECN1信号通路在氧化应激诱导的自噬抑制中的机制研究

Mechanistic study of TRPM2-Ca(2+)-CAMK2-BECN1 signaling in oxidative stress-induced autophagy inhibition.

作者信息

Wang Qian, Guo Wenjing, Hao Baixia, Shi Xianli, Lu Yingying, Wong Connie W M, Ma Victor W S, Yip Timothy T C, Au Joseph S K, Hao Quan, Cheung King-Ho, Wu Wutian, Li Gui-Rong, Yue Jianbo

机构信息

a Department of Biomedical Sciences , City University of Hong Kong , Hong Kong , China.

b School of Biomedical Sciences, University of Hong Kong , Hong Kong , China.

出版信息

Autophagy. 2016 Aug 2;12(8):1340-54. doi: 10.1080/15548627.2016.1187365. Epub 2016 May 31.

DOI:10.1080/15548627.2016.1187365

PMID:27245989

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4968236/

Abstract

摘要

TRPM2-Ca(2+)-CAMK2-BECN1信号通路在氧化应激诱导的自噬抑制中的机制研究

Mechanistic study of TRPM2-Ca(2+)-CAMK2-BECN1 signaling in oxidative stress-induced autophagy inhibition.

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机构信息

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TRPM2-Ca(2+)-CAMK2-BECN1信号通路在氧化应激诱导的自噬抑制中的机制研究

Mechanistic study of TRPM2-Ca(2+)-CAMK2-BECN1 signaling in oxidative stress-induced autophagy inhibition.

作者信息

机构信息

出版信息