Hexyl-pentynoic acid serves as a novel radiosensitizer for breast cancer by inhibiting UCHL3-dependent Rad51 deubiquitination

Q1 Health Professions Radiation Medicine and Protection Pub Date : 2023-12-01 DOI:10.1016/j.radmp.2023.10.003

Zuchao Cai , David Lim , Beidi Jia , Guochao Liu , Wenwen Ding , Zhendong Wang , Zhujun Tian , Junxuan Peng , Fengmei Zhang , Chao Dong , Zhihui Feng

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Abstract

Objective

To investigate the effects and underlying mechanism of 2-hexyl-4-pentynoic acid (HPTA), a derivative of valproic acid (VPA), on radiotherapy in breast cancer.

Methods

MCF7 cells and 7,12-dimethylbenz-[α]-anthracene (DMBA)-induced transformed human normal breast cells (MCF10A–DMBA cells) were irradiated with 8 Gy X-rays. For both cells there were four groups: control, valproic acid (VPA)/HPTA, IR, and VPA/HPTA+IR groups. MTT and clonogenic survival assays were performed to assess cell proliferation, and comet assay was performed to evaluate DNA damage. Protein expression of γH2AX, 53BP1, Rad51, and BRCA1 was examined via immunofluorescence and immunoblotting. Cycloheximide chase and ubiquitination experiments were conducted to determine Rad51 ubiquitination. In vivo experiments involved a rat model of DMBA-induced breast cancer, with four fractionated doses of 2 Gy. Tumor tissue pathological changes and γH2AX, Rad51, and UCHL3 expression levels were measured by hematoxylin-eosin staining, immunohistochemistry, and immunoblotting.

Results

Compared with the IR group, 15 μmol/L HPTA reduced the cell proliferation ability of irradiated MCF7 cells (t=2.16, P<0.05). The VPA/HPTA+IR group exhibited significantly increased DNA double-strand breaks relative to those in the IR group (VPA+IR vs. IR, t=13.37, P<0.05; HPTA+IR vs. IR, t=8.48, P<0.05). Immunofluorescence and immunoblotting experiments demonstrated that the VPA/HPTA+IR group displayed significantly increased cell foci formation, γH2AX and 53BP1 protein expression levels compared to the IR group [(γH2AX: VPA+IR vs. IR, t=8.88, P< 0.05; HPTA+IR vs. IR, t=8.90, P< 0.05), (53BP1, VPA+IR vs. IR, t=5.73, P< 0.05; HPTA+IR vs. IR, t=6.40, P< 0.05)]. Further, Rad51 expression was downregulated (VPA+IR vs. IR, t=3.12, P< 0.05; HPTA+IR vs. IR, t = 2.70, P<0.05), and Rad51 inhibition effectively counteracted HPTA-induced radiosensitization. Ubiquitination detection further verified that HPTA inhibits Rad51 expression via UCHL3-dependent Rad51 deubiquitination. In vivo study results showed that 20 mg/kg HPTA significantly enhanced the radiosensitivity of breast tumors in rats by inhibiting Rad51 expression.

Conclusions

HPTA is a highly effective radiosensitizer that enhances the radiotherapeutic efficacy of breast cancer treatment through UCHL3-dependent deubiquitination of Rad51.

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己基戊炔酸通过抑制 UCHL3 依赖性 Rad51 去泛素化，成为一种新型乳腺癌放射增敏剂

方法用 8 Gy X 射线照射 MCF7 细胞和 7,12 二甲基苯并[α]蒽（DMBA）诱导转化的人类正常乳腺细胞（MCF10A-DMBA 细胞）。这两种细胞分为四组：对照组、丙戊酸（VPA）/HPTA 组、IR 组和 VPA/HPTA+IR 组。MTT 和克隆存活试验用于评估细胞增殖，彗星试验用于评估 DNA 损伤。通过免疫荧光和免疫印迹检测γH2AX、53BP1、Rad51和BRCA1的蛋白表达。进行了环己亚胺追逐和泛素化实验，以确定 Rad51 的泛素化情况。体内实验涉及 DMBA 诱导的乳腺癌大鼠模型，共使用了四次 2 Gy 的分次剂量。结果与 IR 组相比，15 μmol/L HPTA 降低了辐照 MCF7 细胞的增殖能力（t=2.16，P<0.05）。与 IR 组相比，VPA/HPTA+IR 组的 DNA 双链断裂明显增加（VPA+IR vs. IR，t=13.37，P<0.05；HPTA+IR vs. IR，t=8.48，P<0.05）。免疫荧光和免疫印迹实验表明，与 IR 组相比，VPA/HPTA+IR 组的细胞灶形成、γH2AX 和 53BP1 蛋白表达水平显著增加[（γH2AX：VPA+IR vs. IR，t=8.88，P<0.05）]。IR，t=8.88，P< 0.05；HPTA+IR vs. IR，t=8.90，P< 0.05），（53BP1，VPA+IR vs. IR，t=5.73，P< 0.05；HPTA+IR vs. IR，t=6.40，P< 0.05）]。此外，Rad51表达下调（VPA+IR vs. IR，t=3.12，P< 0.05；HPTA+IR vs. IR，t=2.70，P<0.05），Rad51抑制有效地对抗了HPTA诱导的放射增敏。泛素化检测进一步验证了HPTA通过UCHL3依赖的Rad51去泛素化抑制Rad51的表达。体内研究结果表明，20 mg/kg HPTA通过抑制Rad51的表达，显著增强了大鼠乳腺肿瘤的放射敏感性。

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