MORF4L1-Mediated DNA Damage Repair Modulates cGAS-STING Activation and Radiosensitivity in Hepatocellular Carcinoma

IF 6.4 1区医学 Q1 ONCOLOGY International Journal of Radiation Oncology Biology Physics Pub Date : 2024-10-01 DOI:10.1016/j.ijrobp.2024.07.037

S. Wang , W. Hong , Y. Huang , C. Gao , A. Ke , Z. Zeng , S. Du

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Abstract

Purpose/Objective(s)

Hepatocellular carcinoma (HCC) is one of the most common malignant tumors with poor prognosis. Radiotherapy (RT) is one of the main treatments for patients with unresectable HCC, but its efficacy has been limited due to inherent or acquired radiation resistance. However, the regulatory mechanisms of radiation resistance in HCC remain unclear.

Materials/Methods

Key DDR genes in HCC were identified by single-cell RNA sequencing (GSE149614). In vitro experiments confirmed that the expression level of MORF4L1 regulates DNA damage repair and susceptibility to radiotherapy of HCC cells. Immunoprecipitation-mass spectrometry was used to explore the core mechanism of MORF4L1 mediating DNA damage repair. Mechanisms of MORF4L1 antagonist combined with radiotherapy to enhance anti-tumor immune response was demonstrated by in vitro cell co-culture model, small molecule inhibitor and genetically engineered mice.

Results

In this study, MORF4L1 was identified as a key DDR gene in HCC by single-cell RNA sequencing (GSE149614). High expression of MORF4L1 mediates poor prognosis and poor RT efficacy in patients with HCC. The expression level of MORF4L1 regulates DNA damage repair and susceptibility to radiation therapy in liver cancer cells. Mechanistically, MORF4L1 mediates acetylation of histone H3 at lysine 4 to promote DNA damage repair. Knocking out MORF4L1 or inhibiting histone acetylation reduced recruitment of PALB2, BRCA2, and RAD51 at sites of DNA damage. Using in vitro cell co-culture models and genetically engineered mice, we demonstrated that the FDA-approved drug argatroban (MORF4L1 antagonist) combined with RT can enhance the anti-tumor immune response by activating the cGAS-STING signaling pathway.

Conclusion

This work highlights the mechanism of MORF4L1 as a key gene in HCC DNA damage repair. RT combined with argatroban enhances anti-tumor immune response by activating cGAS-STING signaling pathway, providing new insights for improving the efficacy of RT for HCC.

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MORF4L1 介导的 DNA 损伤修复调节 cGAS-STING 活化和肝细胞癌的放射敏感性

目的/目标肝细胞癌（HCC）是最常见的恶性肿瘤之一，预后较差。放射治疗（RT）是不可切除的 HCC 患者的主要治疗方法之一，但由于固有或获得性放射抗性，其疗效受到限制。材料/方法通过单细胞 RNA 测序（GSE149614）确定了 HCC 中的关键 DDR 基因。体外实验证实，MORF4L1的表达水平调控着HCC细胞的DNA损伤修复和对放疗的敏感性。免疫沉淀-质谱法被用来探索MORF4L1介导DNA损伤修复的核心机制。通过体外细胞共培养模型、小分子抑制剂和基因工程小鼠证明了MORF4L1拮抗剂联合放疗增强抗肿瘤免疫反应的机制。结果本研究通过单细胞RNA测序（GSE149614）发现MORF4L1是HCC中一个关键的DDR基因。MORF4L1 的高表达介导了 HCC 患者的不良预后和 RT 疗效。MORF4L1 的表达水平调节肝癌细胞的 DNA 损伤修复和对放疗的敏感性。从机理上讲，MORF4L1介导组蛋白H3赖氨酸4乙酰化，促进DNA损伤修复。敲除MORF4L1或抑制组蛋白乙酰化可减少PALB2、BRCA2和RAD51在DNA损伤位点的招募。利用体外细胞共培养模型和基因工程小鼠，我们证明了美国 FDA 批准的药物阿加曲班（MORF4L1 拮抗剂）与 RT 联合使用可通过激活 cGAS-STING 信号通路增强抗肿瘤免疫反应。RT 联合阿加曲班可通过激活 cGAS-STING 信号通路增强抗肿瘤免疫反应，为提高 RT 治疗 HCC 的疗效提供了新的思路。

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来源期刊

International Journal of Radiation Oncology Biology Physics 医学-核医学

CiteScore

11.00

自引率

7.10%

发文量

2538

审稿时长

6.6 weeks

期刊介绍： International Journal of Radiation Oncology • Biology • Physics (IJROBP), known in the field as the Red Journal, publishes original laboratory and clinical investigations related to radiation oncology, radiation biology, medical physics, and both education and health policy as it relates to the field. This journal has a particular interest in original contributions of the following types: prospective clinical trials, outcomes research, and large database interrogation. In addition, it seeks reports of high-impact innovations in single or combined modality treatment, tumor sensitization, normal tissue protection (including both precision avoidance and pharmacologic means), brachytherapy, particle irradiation, and cancer imaging. Technical advances related to dosimetry and conformal radiation treatment planning are of interest, as are basic science studies investigating tumor physiology and the molecular biology underlying cancer and normal tissue radiation response.