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BCL-2在通常在G(2)/M期被激活的ASK1/ Jun N端蛋白激酶途径作用下发生磷酸化并失活。

BCL-2 is phosphorylated and inactivated by an ASK1/Jun N-terminal protein kinase pathway normally activated at G(2)/M.

作者信息

Yamamoto K, Ichijo H, Korsmeyer S J

机构信息

Departments of Pathology and Medicine, Harvard Medical School and Dana-Farber Cancer Institute, Boston, Massachusetts 02115, USA.

出版信息

Mol Cell Biol. 1999 Dec;19(12):8469-78. doi: 10.1128/MCB.19.12.8469.

DOI:10.1128/MCB.19.12.8469
PMID:10567572
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC84954/
Abstract

Multiple signal transduction pathways are capable of modifying BCL-2 family members to reset susceptibility to apoptosis. We used two-dimensional peptide mapping and sequencing to identify three residues (Ser70, Ser87, and Thr69) within the unstructured loop of BCL-2 that were phosphorylated in response to microtubule-damaging agents, which also arrest cells at G(2)/M. Changing these sites to alanine conferred more antiapoptotic activity on BCL-2 following physiologic death signals as well as paclitaxel, indicating that phosphorylation is inactivating. An examination of cycling cells enriched by elutriation for distinct phases of the cell cycle revealed that BCL-2 was phosphorylated at the G(2)/M phase of the cell cycle. G(2)/M-phase cells proved more susceptible to death signals, and phosphorylation of BCL-2 appeared to be responsible, as a Ser70Ala substitution restored resistance to apoptosis. We noted that ASK1 and JNK1 were normally activated at G(2)/M phase, and JNK was capable of phosphorylating BCL-2. Expression of a series of wild-type and dominant-negative kinases indicated an ASK1/Jun N-terminal protein kinase 1 (JNK1) pathway phosphorylated BCL-2 in vivo. Moreover, the combination of dominant negative ASK1, (dnASK1), dnMKK7, and dnJNK1 inhibited paclitaxel-induced BCL-2 phosphorylation. Thus, stress response kinases phosphorylate BCL-2 during cell cycle progression as a normal physiologic process to inactivate BCL-2 at G(2)/M.

摘要

多种信号转导途径能够修饰BCL-2家族成员,以重置对细胞凋亡的敏感性。我们使用二维肽图分析和测序来鉴定BCL-2无结构环内的三个残基(Ser70、Ser87和Thr69),这些残基在受到破坏微管的药物刺激后会发生磷酸化,而这些药物也会使细胞停滞在G(2)/M期。将这些位点突变为丙氨酸后,在生理死亡信号以及紫杉醇作用下,BCL-2会表现出更强的抗凋亡活性,这表明磷酸化作用使其失活。对通过淘洗富集的处于细胞周期不同阶段的循环细胞进行检测发现,BCL-2在细胞周期的G(2)/M期发生磷酸化。结果证明,G(2)/M期细胞对死亡信号更敏感,BCL-2的磷酸化似乎是其原因,因为Ser70Ala替代恢复了对细胞凋亡的抗性。我们注意到,ASK1和JNK1通常在G(2)/M期被激活,并且JNK能够使BCL-2磷酸化。一系列野生型和显性负性激酶的表达表明,ASK1/ Jun N端蛋白激酶1(JNK1)途径在体内使BCL-2磷酸化。此外,显性负性ASK1(dnASK1)、dnMKK7和dnJNK1的组合抑制了紫杉醇诱导的BCL-2磷酸化。因此,应激反应激酶在细胞周期进程中使BCL-2磷酸化,这是一种正常的生理过程,目的是在G(2)/M期使BCL-2失活。

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