三阴性乳腺癌中的p110α/ΔNp63α复合物突变:基于转录的治疗的潜在靶点

Q3 Biochemistry, Genetics and Molecular Biology Tumor Biology Pub Date : 2023-11-13 DOI:10.3233/tub-230013
Wenqiong Ma, Xingping Han, Marzieh Dehghan Shasaltaneh, Hossein Hosseinifard, Mazaher Maghsoudloo, Yuqin Zhang, Qiao Weng, Qingjing Wang, QingLian Wen, Saber Imani
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We investigated the impact of these mutations on the p110α/ΔNp63α complex and downstream transcriptional signaling pathways at the gene and protein levels. Additionally, we used bioinformatics techniques such as molecular dynamics simulations and protein-protein docking to gain insight into the stability and structural changes induced by the p110αH1047R/L mutations in the p110α/ΔNp63α complex and downstream signaling pathway. RESULTS: The presence of PIK3CA oncogenic hotspot mutations in the p110α/ΔNp63α complex led to increased scattering of TNBC cells during growth, migration, and invasion. Our in vitro mutagenesis assay showed that the p110αH1047R/L mutations activated the PI3K-Akt-mTOR and tyrosine kinase receptor pathways, resulting in increased cell proliferation, invasion, and apoptosis in TNBC cells. 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引用次数: 0

摘要

背景:PIK3CA基因p110α结构域发生的热点突变,特别是p110α h1047r /L,增加了三阴性乳腺癌(TNBC)的肿瘤转移和细胞运动。这些突变还影响ΔNp63α的转录调控,ΔNp63α是p53蛋白的重要亚型,与癌症进展有关。本研究试图探讨p110αH1047R/L突变对TNBC癌变中PIK3CA/ΔNp63α复合体的转录影响。方法:采用定点诱变方法引入p110αH1047R/L突变,并在体外评估其对三种不同TNBC细胞系生长、侵袭、迁移和凋亡的致瘤作用。我们在基因和蛋白质水平上研究了这些突变对p110α/ΔNp63α复合体和下游转录信号通路的影响。此外,我们利用生物信息学技术,如分子动力学模拟和蛋白-蛋白对接,深入了解p110α h1047r /L突变在p110α/ΔNp63α复合体和下游信号通路中的稳定性和结构变化。结果:p110α/ΔNp63α复合体中PIK3CA致癌热点突变的存在导致TNBC细胞在生长、迁移和侵袭过程中散射增加。我们的体外诱变实验表明,p110αH1047R/L突变激活了PI3K-Akt-mTOR和酪氨酸激酶受体途径,导致TNBC细胞增殖、侵袭和凋亡增加。这些突变降低了ΔNp63α对p110α激酶结构域的抑制作用,导致PI3K和酪氨酸激酶受体的下游信号通路增强,并在TNBC中致癌转化。此外,我们的研究结果表明,ΔNp63α的DNA结合结构域和p110α的激酶结构域之间的物理相互作用可能部分受损,可能导致p110α/ΔNp63α复合物构象的改变。结论:我们的研究结果表明,针对TNBC中的p110αH1047R/L突变可能是开发基于转录的治疗方法的一种有希望的策略。恢复ΔNp63α与p110α激酶结构域之间的相互作用,可能为治疗TNBC提供一种新的方法。
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The p110α/ΔNp63α complex mutations in triple-negative breast cancer: Potential targets for transcriptional-based therapies
BACKGROUND: Hotspot mutations occurring in the p110α domain of the PIK3CA gene, specifically p110αH1047R/L increase tumor metastasis and cell motility in triple-negative breast cancer (TNBC). These mutations also affect the transcriptional regulation of ΔNp63α, a significant isoform of the p53 protein involved in cancer progression. This study attempts to investigate the transcriptional impact of p110αH1047R/L mutations on the PIK3CA/ΔNp63α complex in TNBC carcinogenesis. METHODS: We performed site-directed mutagenesis to introduce p110αH1047R/L mutations and evaluated their oncogenic effects on the growth, invasion, migration, and apoptosis of three different TNBC cell lines in vitro. We investigated the impact of these mutations on the p110α/ΔNp63α complex and downstream transcriptional signaling pathways at the gene and protein levels. Additionally, we used bioinformatics techniques such as molecular dynamics simulations and protein-protein docking to gain insight into the stability and structural changes induced by the p110αH1047R/L mutations in the p110α/ΔNp63α complex and downstream signaling pathway. RESULTS: The presence of PIK3CA oncogenic hotspot mutations in the p110α/ΔNp63α complex led to increased scattering of TNBC cells during growth, migration, and invasion. Our in vitro mutagenesis assay showed that the p110αH1047R/L mutations activated the PI3K-Akt-mTOR and tyrosine kinase receptor pathways, resulting in increased cell proliferation, invasion, and apoptosis in TNBC cells. These mutations decreased the repressing effect of ΔNp63α on the p110α kinase domain, leading to the enhancement of downstream signaling pathways of PI3K and tyrosine kinase receptors and oncogenic transformation in TNBC. Additionally, our findings suggest that the physical interaction between the DNA binding domain of ΔNp63α and the kinase domain of p110α may be partially impaired, potentially leading to alterations in the conformation of the p110α/ΔNp63α complex. CONCLUSION: Our findings suggest that targeting the p110αH1047R/L mutations in TNBC could be a promising strategy for developing transcriptional-based therapies. Restoring the interaction between ΔNp63α and the p110α kinase domain, which is disrupted by these mutations, may provide a new approach to treating TNBC.
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来源期刊
Tumor Biology
Tumor Biology 医学-肿瘤学
CiteScore
5.40
自引率
0.00%
发文量
18
审稿时长
1 months
期刊介绍: Tumor Biology is a peer reviewed, international journal providing an open access forum for experimental and clinical cancer research. Tumor Biology covers all aspects of tumor markers, molecular biomarkers, tumor targeting, and mechanisms of tumor development and progression. Specific topics of interest include, but are not limited to: Pathway analyses, Non-coding RNAs, Circulating tumor cells, Liquid biopsies, Exosomes, Epigenetics, Cancer stem cells, Tumor immunology and immunotherapy, Tumor microenvironment, Targeted therapies, Therapy resistance Cancer genetics, Cancer risk screening. Studies in other areas of basic, clinical and translational cancer research are also considered in order to promote connections and discoveries across different disciplines. The journal publishes original articles, reviews, commentaries and guidelines on tumor marker use. All submissions are subject to rigorous peer review and are selected on the basis of whether the research is sound and deserves publication. Tumor Biology is the Official Journal of the International Society of Oncology and BioMarkers (ISOBM).
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