[Construction of novel transmembrane fusion antioxidant enzymes and their protective effect against hydrogen peroxide-mediated cellular oxidative damage].

Q4 Biochemistry, Genetics and Molecular Biology

Sheng wu gong cheng xue bao = Chinese journal of biotechnology Pub Date : 2025-04-25 DOI:10.13345/j.cjb.240767

Jianru Pan, Ziyi Zhang, Jinnan Chu, Yanan Han, Xueying Zheng, Shirong Cai, Huocong He

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引用次数: 0

Abstract

Reactive oxygen species (ROS) are major contributors to radiation therapy-induced side effects in cancer patients. A fusion antioxidant enzyme comprising glutathione S-transferase (GST), superoxide dismutase 1 (SOD1), and a transmembrane peptide has been shown to effectively mitigate ROS-induced damage. To enhance its targeting capability, the fusion protein was further modified by incorporating a matrix metalloproteinase-2/9 substrate peptide (X) and the transmembrane peptide R9, yielding the antioxidant enzyme GST-SOD1-X-R9 (GS1XR). This modification reduced its transmembrane ability in tumor cells, thereby selectively protecting normal cells from oxidative stress. However, the use of non-human GST poses potential immunogenicity risks. In this study, we employed seamless cloning technology to construct an expression vector containing the human GST gene to replace the non-human GST gene, and then expressed and purified novel fusion antioxidant enzymes GS1R and GS1XR. The protective effects of newly constructed GS1R and GS1XR against hydrogen peroxide (H₂O₂)-induced oxidative damage in L-02 cells were then evaluated using GS1 as a control. Enzymatic activity assays revealed that the specific activity of GST in GS1XR remained unchanged compared to the unmodified protein, while SOD activity was enhanced. Exposure to 200 μmol/L H₂O₂ transiently activated the nuclear factor-erythroid 2-related factor 2 (Nrf2) pathway; however, this activation diminished after 24 h, reducing cell viability to 48.4%. Both GS1R and GS1XR effectively scavenged intracellular ROS, directly counteracting oxidative stress and promoting Nrf2 nuclear translocation, thereby activating antioxidant pathways and restoring cell viability to normal levels. The two enzymes showed comparable efficacy. In contrast, GS1, lacking transmembrane capability, was restricted to scavenging extracellular ROS and provided only limited protection. In conclusion, both novel fusion antioxidant enzymes demonstrated significant potential in safeguarding normal cells from ROS-mediated oxidative damage. The findings provide a foundation for further investigation in related field.

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[新型跨膜融合抗氧化酶的构建及其对过氧化氢介导细胞氧化损伤的保护作用]。

活性氧（ROS）是癌症患者放射治疗引起的副作用的主要原因。由谷胱甘肽s -转移酶（GST）、超氧化物歧化酶1 （SOD1）和跨膜肽组成的融合抗氧化酶已被证明能有效减轻ros引起的损伤。为了增强其靶向能力，我们将基质金属蛋白酶2/9底物肽(X)和跨膜肽R9进一步修饰融合蛋白，得到抗氧化酶GST-SOD1-X-R9 （GS1XR）。这种修饰降低了其在肿瘤细胞中的跨膜能力，从而选择性地保护正常细胞免受氧化应激。然而，非人类GST的使用存在潜在的免疫原性风险。本研究采用无缝克隆技术构建含人GST基因的表达载体，替代非人GST基因，表达纯化新型融合抗氧化酶GS1R和GS1XR。以GS1为对照，评价新构建的GS1R和GS1XR对过氧化氢（H2O2）诱导的L-02细胞氧化损伤的保护作用。酶活性测定表明，GS1XR中GST的比活性与未修饰蛋白相比保持不变，而SOD活性增强。暴露于200 μmol/L H₂O₂中可瞬间激活核因子-红细胞2相关因子2 （Nrf2）通路；然而，这种激活在24 h后减弱，使细胞存活率降至48.4%。GS1R和GS1XR均能有效清除细胞内ROS，直接对抗氧化应激，促进Nrf2核易位，从而激活抗氧化途径，使细胞活力恢复到正常水平。两种酶的疗效相当。相比之下，GS1缺乏跨膜能力，仅限于清除细胞外ROS，仅提供有限的保护。总之，这两种新型融合抗氧化酶在保护正常细胞免受ros介导的氧化损伤方面显示出显著的潜力。研究结果为相关领域的进一步研究奠定了基础。

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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来源期刊

Sheng wu gong cheng xue bao = Chinese journal of biotechnology Biochemistry, Genetics and Molecular Biology-Biotechnology

CiteScore

1.50

自引率

0.00%

发文量

298

期刊介绍： Chinese Journal of Biotechnology (Chinese edition) , sponsored by the Institute of Microbiology, Chinese Academy of Sciences and the Chinese Society for Microbiology, is a peer-reviewed international journal. The journal is cited by many scientific databases , such as Chemical Abstract (CA), Biology Abstract (BA), MEDLINE, Russian Digest , Chinese Scientific Citation Index (CSCI), Chinese Journal Citation Report (CJCR), and Chinese Academic Journal (CD version). The Journal publishes new discoveries, techniques and developments in genetic engineering, cell engineering, enzyme engineering, biochemical engineering, tissue engineering, bioinformatics, biochips and other fields of biotechnology.