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关于高 LET 射线治疗后肿瘤辐射抗性的观点。

A perspective on tumor radiation resistance following high-LET radiation treatment.

机构信息

Molecular Biology Division, Bhabha Atomic Research Centre, 2-46-S, Modular Lab, A-Block, Mumbai, 400085, India.

Homi Bhabha National Institute, DAE- Deemed University, Mumbai, 400094, India.

出版信息

J Cancer Res Clin Oncol. 2024 May 2;150(5):226. doi: 10.1007/s00432-024-05757-8.

DOI:10.1007/s00432-024-05757-8
PMID:38696003
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11065934/
Abstract

High-linear energy transfer (LET) radiation is a promising alternative to conventional low-LET radiation for therapeutic gain against cancer owing to its ability to induce complex and clustered DNA lesions. However, the development of radiation resistance poses a significant barrier. The potential molecular mechanisms that could confer resistance development are translesion synthesis (TLS), replication gap suppression (RGS) mechanisms, autophagy, epithelial-mesenchymal transition (EMT) activation, release of exosomes, and epigenetic changes. This article will discuss various types of complex clustered DNA damage, their repair mechanisms, mutagenic potential, and the development of radiation resistance strategies. Furthermore, it highlights the importance of careful consideration and patient selection when employing high-LET radiotherapy in clinical settings.

摘要

高线性能量转移 (LET) 辐射因其能够诱导复杂和聚集的 DNA 损伤,因此是一种有前途的替代传统低 LET 辐射的治疗癌症的方法,以获得治疗增益。然而,辐射抗性的发展是一个重大障碍。可能赋予抗性发展的潜在分子机制是跨损伤合成 (TLS)、复制间隙抑制 (RGS) 机制、自噬、上皮-间充质转化 (EMT) 激活、外泌体释放和表观遗传改变。本文将讨论各种类型的复杂聚集 DNA 损伤、它们的修复机制、诱变潜力以及辐射抗性发展策略。此外,它强调了在临床环境中使用高 LET 放射治疗时仔细考虑和患者选择的重要性。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/d89a/11065934/1936d231465d/432_2024_5757_Fig1_HTML.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/d89a/11065934/1936d231465d/432_2024_5757_Fig1_HTML.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/d89a/11065934/1936d231465d/432_2024_5757_Fig1_HTML.jpg

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A perspective on tumor radiation resistance following high-LET radiation treatment.

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引用本文的文献

[1]
Advances in research on RNA methylation and cancer radiotherapy resistance.

Front Oncol. 2025-7-31

[2]
Human TLS DNA polymerase: saviors or threats under replication stress?

Mol Cell Biochem. 2025-5-23

[3]
Establishment and biological characterization of radioresistant colorectal cancer cell lines.

FEBS Open Bio. 2025-6

本文引用的文献

[1]
The Current Therapeutic Landscape for Metastatic Prostate Cancer.

Pharmaceuticals (Basel). 2024-3-8

[2]
FANCJ promotes PARP1 activity during DNA replication that is essential in BRCA1 deficient cells.

Nat Commun. 2024-3-23

[3]
Long-term space missions' effects on the human organism: what we do know and what requires further research.

Front Physiol. 2024-2-13

[4]
Cell fate regulation governed by p53: Friends or reversible foes in cancer therapy.

Cancer Commun (Lond). 2024-3

[5]
Chromosomal positioning and epigenetic architecture influence DNA methylation patterns triggered by galactic cosmic radiation.

Sci Rep. 2024-1-15

[6]
USP1-dependent nucleolytic expansion of PRIMPOL-generated nascent DNA strand discontinuities during replication stress.

Nucleic Acids Res. 2024-3-21

[7]
High-throughput sequencing reveals Jatrorrhizine inhibits colorectal cancer growth by ferroptosis-related genes.

BMC Med Genomics. 2023-9-14

[8]
Chromosomal Instability in Various Generations of Human Mesenchymal Stem Cells Following the Therapeutic Radiation.

Stem Cells Int. 2023-8-29

[9]
Editorial: The impact of genetics on CRC therapy: from adaptive mutability to drug resistance.

Front Oncol. 2023-8-8

[10]
An ATR-PrimPol pathway confers tolerance to oncogenic KRAS-induced and heterochromatin-associated replication stress.

Nat Commun. 2023-8-17

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