Role of heat shock protein in radiation-induced effect and related potential clinical application

Q1 Health Professions Radiation Medicine and Protection Pub Date : 2025-02-01 Epub Date: 2024-11-28 DOI:10.1016/j.radmp.2024.11.002

Ying Xu, Wentao Hu, Guangming Zhou

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Abstract

Heat shock protein (HSP), as an intracellular chaperone, is significantly upregulated when cells are exposed to radiation and other stress environments, playing an important role in cell self-protection. This phenomenon not only provides a mechanism for normal tissues to resist radiation damage, but also provides a strategy for cancer cells to reduce their sensitivity to radiation and escape treatment. More research is needed to clarify the specific mechanism of HSP in radiotherapy and how to better use its biological effects for clinical individualized treatment. This paper reviews the biological effects of HSP under radiation and the latest research progress of combined radiation and HSP inhibitors or hyperthermia, in the hope of having a more comprehensive understanding of its mechanism in physiological processes such as cell survival, apoptosis, inflammation, immune response, as well as radiation response, which will help to enhance the therapeutic effect and to provide more effective and safer radiotherapy for cancer patients in the future.

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热休克蛋白在辐射诱导效应中的作用及其潜在临床应用

热休克蛋白（Heat shock protein， HSP）作为细胞内的一种伴侣蛋白，在细胞暴露于辐射等应激环境时显著上调，在细胞自我保护中发挥重要作用。这一现象不仅为正常组织抵抗辐射损伤提供了机制，也为癌细胞降低对辐射的敏感性和逃避治疗提供了策略。HSP在放疗中的具体作用机制以及如何更好地利用其生物学效应进行临床个体化治疗还有待进一步研究。本文综述了放射作用下HSP的生物学效应，以及放射联合HSP抑制剂或热疗的最新研究进展，希望能更全面地了解其在细胞存活、凋亡、炎症、免疫反应、辐射反应等生理过程中的机制，有助于提高治疗效果，为今后癌症患者提供更有效、更安全的放疗。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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