增加 MCL-1 的合成通过调节 ROS/AKT 环促进鼻咽癌的放射抵抗。

Increased MCL-1 synthesis promotes irradiation-induced nasopharyngeal carcinoma radioresistance via regulation of the ROS/AKT loop.

机构信息

Department of Radiation Oncology, Affiliated Cancer Hospital & Institute of Guangzhou Medical University, Guangzhou, China.

Department of Internal Medicine, Section 3, Affiliated Cancer Hospital & Institute of Guangzhou Medical University, Guangzhou, China.

出版信息

Cell Death Dis. 2022 Feb 8;13(2):131. doi: 10.1038/s41419-022-04551-z.

DOI:10.1038/s41419-022-04551-z

PMID:35136016

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8827103/

Abstract

Worldwide, nasopharyngeal carcinoma (NPC) is a rare head and neck cancer; however, it is a common malignancy in southern China. Radiotherapy is the most important treatment strategy for NPC. However, although radiotherapy is a strong tool to kill cancer cells, paradoxically it also promotes aggressive phenotypes. Therefore, we mimicked the treatment process in NPC cells in vitro. Upon exposure to radiation, a subpopulation of NPC cells gradually developed resistance to radiation and displayed cancer stem-cell characteristics. Radiation-induced stemness largely depends on the accumulation of the antiapoptotic myeloid cell leukemia 1 (MCL-1) protein. Upregulated MCL-1 levels were caused by increased stability and more importantly, enhanced protein synthesis. We showed that repeated ionizing radiation resulted in persistently enhanced reactive oxygen species (ROS) production at a higher basal level, further promoting protein kinase B (AKT) signaling activation. Intracellular ROS and AKT activation form a positive feedback loop in the process of MCL-1 protein synthesis, which in turn induces stemness and radioresistance. AKT/MCL-1 axis inhibition attenuated radiation-induced resistance, providing a potential target to reverse radiation therapy-induced radioresistance.

摘要

在全球范围内，鼻咽癌（NPC）是一种罕见的头颈部癌症；然而，它在中国南方地区是一种常见的恶性肿瘤。放射治疗是 NPC 的最重要治疗策略。然而，尽管放射治疗是一种强大的杀死癌细胞的工具，但矛盾的是，它也促进了侵袭性表型。因此，我们在 NPC 细胞中模拟了体外治疗过程。在暴露于辐射后，NPC 细胞的一个亚群逐渐对辐射产生抗性，并表现出癌症干细胞特征。辐射诱导的干细胞特性在很大程度上取决于抗凋亡髓细胞白血病 1（MCL-1）蛋白的积累。上调的 MCL-1 水平是由稳定性增加引起的，更重要的是，增强了蛋白质合成。我们表明，反复的电离辐射导致更高基础水平的持续增强的活性氧（ROS）产生，进一步促进蛋白激酶 B（AKT）信号的激活。细胞内 ROS 和 AKT 的激活在 MCL-1 蛋白合成过程中形成了一个正反馈回路，进而诱导干细胞特性和放射抗性。AKT/MCL-1 轴的抑制减弱了辐射诱导的抗性，为逆转放射治疗诱导的放射抗性提供了一个潜在的靶点。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/dcb6/8827103/3236317605cf/41419_2022_4551_Fig1_HTML.jpg

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增加 MCL-1 的合成通过调节 ROS/AKT 环促进鼻咽癌的放射抵抗。

Increased MCL-1 synthesis promotes irradiation-induced nasopharyngeal carcinoma radioresistance via regulation of the ROS/AKT loop.

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