敲除 hCINAP 可使结直肠癌细胞对电离辐射敏感。

IF 3.4 3区 生物学 Q3 CELL BIOLOGY
Cell Cycle Pub Date : 2024-02-01 Epub Date: 2024-03-29 DOI:10.1080/15384101.2024.2309015
Meizhu Shen, Yong Zhang, Fang Wu, Meizhen Shen, Sen Zhang, Yun Guo, Jialiang Gan, Rensheng Wang
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引用次数: 0

摘要

大肠癌(CRC)由于普遍存在放疗耐药性,给治疗带来了巨大挑战。然而,造成 CRC 放射治疗耐药性的潜在机制尚未得到深入探讨。本研究旨在揭示人鞘磷脂核ATP酶蛋白(hCINAP)在放射耐药的HT-29和SW480 CRC细胞(HT-29-IR和SW480-IR)中的作用,并探讨其潜在的影响。首先,将 HT-29 和 SW480 细胞依次置于辐射照射下,建立了抗辐射的 CRC 细胞系。随后的分析表明,耐辐射 CRC 细胞中 hCINAP 的表达明显增加。为了阐明 hCINAP 在放射抗性中的功能作用,研究人员进行了基因敲除实验。值得注意的是,敲除 hCINAP 会导致辐射处理时活性氧(ROS)生成的增加,随后激活由线粒体介导的细胞凋亡。这些观察结果表明,敲除 hCINAP 会增强 CRC 细胞对辐射的敏感性。相反,当过量表达 hCINAP 时,则会增强 CRC 细胞的放射抗性。这表明,hCINAP表达的升高有助于放射抗性的形成。进一步研究发现,hCINAP与ATPase家族AAA结构域包含3A(ATAD3A)之间存在相互作用。重要的是,ATAD3A 被确定为 hCINAP 介导的放射抗性的一个重要因素。这些发现证实了 hCINAP 及其与 ATAD3A 的相互作用参与了 CRC 细胞放射抗性的调控。总之,本研究的结果表明,上调 hCINAP 的表达可提高暴露于辐射的 CRC 细胞的存活率。了解 hCINAP 功能背后错综复杂的分子机制有望为 CRC 靶向放射治疗的潜在策略带来希望。这些发现强调了进一步研究的重要性,以全面了解 hCINAP 的精确分子机制,并探索其作为克服 CRC 放射抗性的治疗靶点的潜力。通过揭示 hCINAP 及其相互作用的复杂性,可能会开发出新的治疗方法来提高放射治疗的疗效并改善 CRC 患者的预后。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Knockdown of hCINAP sensitizes colorectal cancer cells to ionizing radiation.

Colorectal cancer (CRC) poses a significant challenge in terms of treatment due to the prevalence of radiotherapy resistance. However, the underlying mechanisms responsible for radio-resistance in CRC have not been thoroughly explored. This study aimed to shed light on the role of human coilin interacting nuclear ATPase protein (hCINAP) in radiation-resistant HT-29 and SW480 CRC cells (HT-29-IR and SW480-IR) and investigate its potential implications. Firstly, radiation-resistant CRC cell lines were established by subjecting HT-29 and SW480 cells to sequential radiation exposure. Subsequent analysis revealed a notable increase in hCINAP expression in radiation-resistant CRC cells. To elucidate the functional role of hCINAP in radio-resistance, knockdown experiments were conducted. Remarkably, knockdown of hCINAP resulted in an elevation of reactive oxygen species (ROS) generation upon radiation treatment and subsequent activation of apoptosis mediated by mitochondria. These observations indicate that hCINAP depletion enhances the radiosensitivity of CRC cells. Conversely, when hCINAP was overexpressed, it was found to enhance the radio-resistance of CRC cells. This suggests that elevated hCINAP expression contributes to the development of radio-resistance. Further investigation revealed an interaction between hCINAP and ATPase family AAA domain containing 3A (ATAD3A). Importantly, ATAD3A was identified as an essential factor in hCINAP-mediated radio-resistance. These findings establish the involvement of hCINAP and its interaction with ATAD3A in the regulation of radio-resistance in CRC cells. Overall, the results of this study demonstrate that upregulating hCINAP expression may improve the survival of radiation-exposed CRC cells. Understanding the intricate molecular mechanisms underlying hCINAP function holds promise for potential strategies in targeted radiation therapy for CRC. These findings emphasize the importance of further research to gain a comprehensive understanding of hCINAP's precise molecular mechanisms and explore its potential as a therapeutic target in overcoming radio-resistance in CRC. By unraveling the complexities of hCINAP and its interactions, novel therapeutic approaches may be developed to enhance the efficacy of radiation therapy and improve outcomes for CRC patients.

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来源期刊
Cell Cycle
Cell Cycle 生物-细胞生物学
CiteScore
7.70
自引率
2.30%
发文量
281
审稿时长
1 months
期刊介绍: Cell Cycle is a bi-weekly peer-reviewed journal of high priority research from all areas of cell biology. Cell Cycle covers all topics from yeast to man, from DNA to function, from development to aging, from stem cells to cell senescence, from metabolism to cell death, from cancer to neurobiology, from molecular biology to therapeutics. Our goal is fast publication of outstanding research.
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