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Journal Of Modern Oncology[ISSN:1672-4992/CN:61-1415/R]

Issue:

2024 14

Page:

2601-2606

Research Field:

Publishing date:

Info

Title:

Analysis of gene mutation and related clinical characteristics of cervical cancer based on next generation sequencing

Author(s):

LI Bin¹; 2; HE Dongling¹; JIANG Dewen¹; 2; LYU Qing¹; 2; ZHOU Xiao¹; 2; LIU Yanjie¹; 2

1.Department of Pathology,Guizhou Medical University，Guizhou Guiyang 550004,China;2.Department of Pathology,Affiliated Hospital of Guizhou Medical University,Guizhou Guiyang 550004,China.

Keywords:

cervical cancer; next generation sequencing; mutation; gene; clinical features

PACS:

R737.33

DOI:

10.3969/j.issn.1672-4992.2024.14.019

Abstract:

Objective:To investigate the relationship between somatic mutated genes and clinicopathological features of cervical cancer(CC).Methods:The genomic DNA of 113 CC patients were extracted,the somatic mutations were detected by next generation sequencing technology and the mutant sites were screened,classified and analyzed.Results:A total of 324 somatic mutation gene and their corresponding 3 677 mutant sites were detected in tissue samples from 113 CC patients.Including missense mutations,nonsense mutations,5' non-coding mutations,silent mutations,intron mutations,3' non-coding mutations,non-frameshift deletion mutations,frameshift deletion mutations,and frameshift insertion mutations,a total of 9 variation types.Among them,missense mutations accounted for 69.73% (2 564/3 677) of all variants.KEGG pathway enrichment analysis showed that mutant genes were enriched in PI3K-Akt,MAPK and other signaling pathways,and interaction analysis of TOP20 genes showed that most gene mutations were synergistic.Of the 3 677 mutation sites,166 pathogenic mutation sites were identified,of which 47 were not included in the COSMIC,ONCOKBTM and HGMD databases.Statistical analysis showed that the pathogenic mutations were significantly different in the depth of HPV infection and tumor invasion (P＜0.05).Conclusion:The distribution of mutant genes in CC system was described.The top five genes were PIK3CA,NOTCH1,ERBB2,EGFR and FBXW7.Most of the mutations were co-occurring and synergistic.Pathogenic mutations were detected in 87 patients (76.99%),and 53 genes associated with pathogenic mutations were potentially important factors to promote the development of CC.47 newly discovered mutation sites may participate in the pathogenesis of CC occurrence and development,and may become the mutation sites that need attention in the future.

References:

［1］ GUO X,XIAO H,GUO S,et al.Long noncoding RNA HOTAIR knockdown inhibits autophagy and epithelial-mesenchymal transition through the Wnt signaling pathway in radioresistant human cervical cancer HeLa cells［J］.J Cell Physiol,2019,234(4):3478-3489.
［2］ ARBYN M,WEIDERPASS E,BRUNI L,et al.Estimates of incidence and mortality of cervical cancer in 2018:a worldwide analysis［J］.Lancet Glob Health,2020,8(2):e191-e203.
［3］ TOMITA N,MIZUNO M,KONDO S,et al.Role of extensive lymphadenectomy in early-stage cervical cancer patients with radical hysterectomy followed by adjuvant radiotherapy［J］.Int J Gynecol Cancer,2018,28(6):1211-1217.
［4］ TOMITA N,MIZUNO M,MAKITA C,et al.Propensity score analysis of radical hysterectomy versus definitive chemoradiation for FIGO stage IIb cervical cancer［J］.Int J Gynecol Cancer,2018,28(8):1576-1583.
［5］ MARTIN-HIRSCH PL,WOOD NJ.Cervical cancer［J］.BMJ Clin Evid,2011,2011:0818.
［6］ WU X,PENG L,ZHANG Y,et al.Identification of key genes and pathways in cervical cancer by bioinformatics analysis［J］.Int J Med Sci,2019,16(6):800-812.
［7］ QIU L,FENG H,YU H,et al.Characterization of the genomic landscape in cervical cancer by next generation sequencing［J］.Genes (Basel),2022,13(2):287.
［8］ RICHARDS S,AZIZ N,BALE S,et al.Standards and guidelines for the interpretation of sequence variants:a joint consensus recommendation of the American College of Medical Genetics and Genomics and the Association for Molecular Pathology［J］.Genet Med,2015,17(5):405-424.
［9］ 王秋菊,沈亦平,邬玲仟,等.遗传变异分类标准与指南［J］.中国科学:生命科学,2017,47(06):668-688. WANG QJ,SHEN YP,WU LQ,et al.Criteria and guidelines for classification of genetic variation［J］.Scientia Sinica Vitae,2017,47(06):668-688.
［10］ 何冬玲,韦广月,王纯,等.2018-2020年贵阳地区女性宫颈癌HPV、TCT及DNA倍体联合筛查结果分析［J］.肿瘤,2021,41(02):121-130. HE DL,WEI GY,WANG C,et al.Analysis of joint detection of HPV,TCT and DNA ploidy analysis in Guiyang area,2018-2020［J］.Tumor,2021,41(02):121-130.
［11］ SZYMONOWICZ KA,CHEN J.Biological and clinical aspects of HPV-related cancers［J］.Cancer Biol Med,2020,17(4):864-878.
［12］ NEYAZ MK,HUSSAIN S,HASSAN MI,et al.Novel missense mutation in FHIT gene:interpreting the effect in HPV-mediated cervical cancer in Indian women［J］.Mol Cell Biochem,2010,335(1-2):53-58.
［13］ BUKIRWA P,WABINGA H,NAMBOOZE S,et al.Trends in the incidence of cancer in Kampala,Uganda,1991 to 2015［J］.Int J Cancer,2021,148(9):2129-2138.
［14］ OJESINA AI,LICHTENSTEIN L,FREEMAN SS,et al.Landscape of genomic alterations in cervical carcinomas［J］.Nature,2014,506(7488):371-375.
［15］ TCGA Research Network.Integrated genomic and molecular characterization of cervical cancer［J］.Nature,2017,543(7645):378-384.
［16］ ROZHOK A,DEGREGORI J.A generalized theory of age-dependent carcinogenesis［J］.Elife,2019,8:e39950.
［17］ JIANG W,OUYANG X,JI Z,et al.The PIK3CA-E545K-SIRT4 signaling axis reduces radiosensitivity by promoting glutamine metabolism in cervical cancer［J］.Cancer Lett,2023,556:216064.
［18］ HU W,HU Y,PEI Y,et al.Silencing DTX3L inhibits the progression of cervical carcinoma by regulating PI3K/AKT/mTOR signaling pathway［J］.Int J Mol Sci,2023,24(1):861.
［19］ PANDURANGAN AP,BLUNDELL TL.Prediction of impacts of mutations on protein structure and interactions:SDM,a statistical approach,and mCSM,using machine learning［J］.Protein Sci,2020,29(1):247-257.
［20］ ZAMMATARO L,LOPEZ S,BELLONE S,et al.Whole-exome sequencing of cervical carcinomas identifies activating ERBB2 and PIK3CA mutations as targets for combination therapy［J］.Proc Natl Acad Sci USA,2019,116(45):22730-22736.
［21］ 姜德文,李彬,何冬玲,等.子宫颈鳞状细胞癌基因胚系突变特点及与临床特征的关系［J］.实用妇产科杂志,2023,39(06):454-459. JIANG DW,LI B,HE DL,et al.The relationship between germline mutant characteristics and clinical features of cervical squamous cell carcinoma genes［J］.Journal of Practical Obstetrics and Gynecology,2023,39(06):454-459.
［22］ PIDDOCK LJ,WIJNANDS WJ,WISE R.Quinolone/ureidopenicillin cross-resistance［J］.Lancet,1987,2(8564):907.
［23］ FRIEDMAN CF,D'SOUZA A,BELLO RD,et al.Targeting HER2-mutant metastatic cervical cancer with neratinib:Final results from the phase 2 SUMMIT basket trial［J］.Gynecol Oncol,2024,181:162-169.

Memo

Memo:

National Natural Science Foundation of China(No.81960572）；国家自然科学基金（编号：81960572）；贵州省科技厅科技支撑计划资助项目［编号：黔科合支撑（2019）2791］；贵州省贵阳市科技计划资助项目［编号：筑科合同（2019）9-1-16］

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Last Update: 1900-01-01