p53 R267W突变干预p21介导的细胞周期阻滞促进肺癌细胞增殖与迁移

doi:10.16288/j.yczz.25-222

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p53 R267W突变干预p21介导的细胞周期阻滞促进肺癌细胞增殖与迁移

赵佳宁¹，伍津正²，张树冰¹

1. 中南大学生命科学学院细胞生物学系，长沙 410013

2. 中南大学湘雅二医院，长沙 410013

收稿日期:2025-10-15 修回日期:2025-12-22 接受日期:2025-12-29 出版日期:2025-12-29 发布日期:2025-12-29
基金资助:
国家自然科学基金项目(编号：81972312)，湖南省自然科学基金项目（编号：2025JJ80166），中南大学研究生教育教学改革研究项目(编号：2025JGB159)资助

The p53 R267Wmutation intervenes p21-mediated cell cycle arrest and promotes proliferation and migration of lung cancer cells

Jianing Zhao¹，Jinzheng Wu²，Shubing Zhang¹

1. Department of Cell Biology, School of Life Sciences, Central South University, Changsha 410013, China

2. The Second Xiangya Hospital, Central South University, Changsha 410013, China

Received:2025-10-15 Revised:2025-12-22 Accepted:2025-12-29 Published:2025-12-29 Online:2025-12-29
Supported by:
Supported by the National Natural Science Foundation of China (No. 81972312), Hunan Provincial Natural Science Foundation of China (No. 2025JJ80166), and the Central South University Graduate Educational Reform Research Program (No. 2025JGB159)

摘要/Abstract

摘要：

TP53基因致病性胚系突变是遗传性肿瘤易感综合征的核心驱动因素。p53的DNA结合域热点突变的致癌机制已明确，但非热点残基错义突变的功能影响仍有待揭示。本研究解析了p53非热点突变p.Arg267Trp（p.R267W）的分子致病机制及临床意义。通过整合进化保守性分析、结构预测和功能实验（CCK-8、平板克隆、Transwell、划痕愈合实验、qPCR、Western blot、荧光素酶报告基因和流式细胞术），在非小细胞肺癌模型（A549/NCI-H1299）中评估R267W对TP53靶基因调控（CDKN1A）及肿瘤抑制表型（增殖、集落形成、迁移）的影响。实验证实突变体未改变p53蛋白稳定性，推测其对蛋白功能的影响，源于突变对DNA结合结构域构象的破坏。突变体TP53转录活性较野生型显著降低（P<0.001），致使下游靶基因CDKN1A的mRNA表达水平同步下降，并削弱细胞周期阻滞功能。在肿瘤抑制功能方面，突变体导致非小细胞肺癌细胞的增殖、集落形成和迁移抑制率显著低于野生型（P<0.05）。本研究结果表明，R267W通过破坏TP53转录功能，进而驱动细胞周期失调及肺癌恶性表型，为TP53临床意义未明变异的致病性评级提供了分子依据。

关键词: p53（p.R267W）, DNA结合结构域, 错义突变, 转录抑制, 肺癌

Abstract:

Pathogenic germline variants in TP53 constitute the central etiological driver of hereditary tumor predisposition disorders syndromes. The oncogenic mechanisms of hotspot mutations in the DNA-binding domain of p53 are well-established. However, the functional consequences of non-hotspot missense mutations remain incompletely understood. In this study, we characterized the molecular pathogenesis and clinical significance of the p53 non-hotspot mutation p.Arg267Trp (p.R267W). In addition, evolutionary conservation analysis, structural prediction, and functional assays including CCK-8 cell proliferation, clonogenic assay, Transwell migration, wound healing assay, qPCR, Western blot, luciferase reporter gene, and flow cytometry techniques were performed to assess the impact of R267W on TP53 target gene regulation (CDKN1A) and tumor-suppressive phenotypes (proliferation, colony formation, migration) in non-small cell lung cancer models (A549/NCI-H1299). Experiments confirmed that the mutant does not affect the p53 protein stability. The impairment of protein function is hypothesized to result from the disruption of the DNA-binding domain conformation. Experimental evidence suggested that the mutant TP53 exhibited significantly reduced transcriptional activity (P<0.001), resulting in a concomitant reduction in CDKN1A mRNA expression and diminished cell cycle arrest capability when compared to wild type. At the tumor-suppressive functional level, the R267W mutant significantly reduced inhibition rates of non-small cell lung cancer cell proliferation, colony formation, and migration relative to wild type (P<0.05). This study reveals that the R267W variant drives cell cycle dysregulation and malignant phenotypes in lung cancer by disrupting TP53's transcriptional functions. These findings establish a molecular basis for the pathogenic classification of TP53 variants of uncertain clinical significance.

Key words:

p53 (p.R267W), DNA-binding domain; missense mutation, transcriptional repression; lung cancer

赵佳宁, 伍津正, 张树冰. p53 R267W突变干预p21介导的细胞周期阻滞促进肺癌细胞增殖与迁移[J]. 遗传, doi: 10.16288/j.yczz.25-222.

Jianing Zhao, Jinzheng Wu, Shubing Zhang. The p53 R267Wmutation intervenes p21-mediated cell cycle arrest and promotes proliferation and migration of lung cancer cells[J]. Hereditas(Beijing), doi: 10.16288/j.yczz.25-222.

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p53 R267W突变干预p21介导的细胞周期阻滞促进肺癌细胞增殖与迁移

The p53 R267Wmutation intervenes p21-mediated cell cycle arrest and promotes proliferation and migration of lung cancer cells

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