凋亡基因和蛋白-蛋白相互作用在三阴性乳腺癌中的作用。

IF 2.6 4区 医学 Q2 GENETICS & HEREDITY Cancer Genomics & Proteomics Pub Date : 2023-05-01 DOI:10.21873/cgp.20379
Getinet M Adinew, Samia Messeha, Equar Taka, Shade A Ahmed, Karam F A Soliman
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引用次数: 2

摘要

背景/目的:与其他类型的乳腺癌相比,三阴性乳腺癌(TNBC)历来很少有治疗选择。因此,探索和确定潜在的相关基因可用于治疗和管理TNBC。通过这样做,我们将提供必要的数据来了解基因如何参与癌细胞的凋亡途径,以确定潜在的治疗靶点。由于TNBC的高度基因组复杂性和异质性,单个基因改变的分析可能无法揭示驱动TNBC的致病性。因此,通过大量基因相互作用的搜索,可以鉴定出分子治疗基因。材料与方法:本研究采用UALCAN、TNM绘图仪、PANTHER、GO-KEEG、PPIs等综合生物信息学方法评估凋亡调控基因的基因表达、蛋白-蛋白相互作用(PPI)和转录因子相互作用。结果:与正常乳腺组织相比,UALCAN中BNIP3、TNFRSF10B、MCL1、CASP4基因表达下调。同时,bc-GeneExMiner v4.5 mRNA表达(BCGM)数据库中BIK、AKT1、BAD、FADD、DIABLO和CASP9下调。基于GO项富集分析,细胞过程(GO:0009987)是生物过程(BP)中的第一类,约有21个凋亡调控基因,其次是生物调控(GO:0065007)。我们确定了29条差异调节通路,包括p53通路、血管生成、细胞凋亡信号通路和阿尔茨海默病早老素通路。我们检测了调节细胞凋亡的基因之间的PPIs;CASP3和CASP9与FADD、MCL1、TNF、TNFRSRF10A和TNFRSF10相互作用;此外,CASP3与CASP9、DFFA和TP53以及CASP9与DIABLO显著形成PPIs。在排名前10位的转录因子中,雄激素受体(AR)与5个凋亡调节基因相互作用(pp结论:我们的研究结果表明,在本研究中使用的27个特定基因中,CASP2、CASP3、DAPK1、TNF、TRAF2和TRAF3与TNBC患者的总生存率(OS)差异显著相关,这可能在TNBC的发展中发挥关键作用,并提供有希望的治疗干预措施。
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The Role of Apoptotic Genes and Protein-Protein Interactions in Triple-negative Breast Cancer.

Background/aim: Compared to other breast cancer types, triple-negative breast cancer (TNBC) has historically had few treatment alternatives. Therefore, exploring and pinpointing potentially implicated genes could be used for treating and managing TNBC. By doing this, we will provide essential data to comprehend how the genes are involved in the apoptotic pathways of the cancer cells to identify potential therapeutic targets. Analysis of a single genetic alteration may not reveal the pathogenicity driving TNBC due to the high genomic complexity and heterogeneity of TNBC. Therefore, searching through a large variety of gene interactions enabled the identification of molecular therapeutic genes.

Materials and methods: This study used integrated bioinformatics methods such as UALCAN, TNM plotter, PANTHER, GO-KEEG and PPIs to assess the gene expression, protein-protein interaction (PPI), and transcription factor interaction of apoptosis-regulated genes.

Results: Compared to normal breast tissue, gene expressions of BNIP3, TNFRSF10B, MCL1, and CASP4 were downregulated in UALCAN. At the same time, BIK, AKT1, BAD, FADD, DIABLO, and CASP9 was down-regulated in bc-GeneExMiner v4.5 mRNA expression (BCGM) databases. Based on GO term enrichment analysis, the cellular process (GO:0009987), which has about 21 apoptosis-regulated genes, is the top category in the biological processes (BP), followed by biological regulation (GO:0065007). We identified 29 differentially regulated pathways, including the p53 pathway, angiogenesis, apoptosis signaling pathway, and the Alzheimer's disease presenilin pathway. We examined the PPIs between the genes that regulate apoptosis; CASP3 and CASP9 interact with FADD, MCL1, TNF, TNFRSRF10A, and TNFRSF10; additionally, CASP3 significantly forms PPIs with CASP9, DFFA, and TP53, and CASP9 with DIABLO. In the top 10 transcription factors, the androgen receptor (AR) interacts with five apoptosis-regulated genes (p<0.0001; q<0.01), followed by retinoic acid receptor alpha (RARA) (p<0.0001; q<0.01) and ring finger protein (RNF2) (p<0.0001; q<0.01). Overall, the gene expression profile, PPIs, and the apoptosis-TF interaction findings suggest that the 27 apoptosis-regulated genes might be used as promising targets in treating and managing TNBC. Furthermore, from a total of 27 key genes, CASP2, CASP3, DAPK1, TNF, TRAF2, and TRAF3 were significantly correlated with poor overall survival in TNBC (p-value <0.05); they could play important roles in the progression of TNBC and provide attractive therapeutic targets that may offer new candidate molecules for targeted therapy.

Conclusion: Our findings demonstrate that CASP2, CASP3, DAPK1, TNF, TRAF2, and TRAF3 were substantially associated with the overall survival rate (OS) difference of TNBC patients out of a total of 27 specific genes used in this study, which may play crucial roles in the development of TNBC and offer promising therapeutic interventions.

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来源期刊
Cancer Genomics & Proteomics
Cancer Genomics & Proteomics ONCOLOGY-GENETICS & HEREDITY
CiteScore
5.00
自引率
8.00%
发文量
51
期刊介绍: Cancer Genomics & Proteomics (CGP) is an international peer-reviewed journal designed to publish rapidly high quality articles and reviews on the application of genomic and proteomic technology to basic, experimental and clinical cancer research. In this site you may find information concerning the editorial board, editorial policy, issue contents, subscriptions, submission of manuscripts and advertising. The first issue of CGP circulated in January 2004. Cancer Genomics & Proteomics is a journal of the International Institute of Anticancer Research. From January 2013 CGP is converted to an online-only open access journal. Cancer Genomics & Proteomics supports (a) the aims and the research projects of the INTERNATIONAL INSTITUTE OF ANTICANCER RESEARCH and (b) the organization of the INTERNATIONAL CONFERENCES OF ANTICANCER RESEARCH.
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