Identification of novel candidate predisposing genes in familial nonmedullary thyroid carcinoma implicating DNA damage repair pathways

IF 5.7 2区 医学 Q1 ONCOLOGY International Journal of Cancer Pub Date : 2024-09-09 DOI:10.1002/ijc.35159
Carolina Pires, Inês J. Marques, Ana Saramago, Margarida M. Moura, Marta Pojo, Rafael Cabrera, Catarina Santos, Francisco Rosário, Diana Lousa, João B. Vicente, Tiago M. Bandeiras, Manuel R. Teixeira, Valeriano Leite, Branca M. Cavaco
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Abstract

The genetic basis of nonsyndromic familial nonmedullary thyroid carcinoma (FNMTC) is still poorly understood, as the susceptibility genes identified so far only account for a small percentage of the genetic burden. Recently, germline mutations in DNA repair-related genes have been reported in cases with thyroid cancer. In order to clarify the genetic basis of FNMTC, 94 genes involved in hereditary cancer predisposition, including DNA repair genes, were analyzed in 48 probands from FNMTC families, through targeted next-generation sequencing (NGS). Genetic variants were selected upon bioinformatics analysis and in silico studies. Structural modeling and network analysis were also performed. In silico results of NGS data unveiled likely pathogenic germline variants in 15 families with FNMTC, in genes encoding proteins involved in DNA repair (ATM, CHEK2, ERCC2, BRCA2, ERCC4, FANCA, FANCD2, FANCF, and PALB2) and in the DICER1, FLCN, PTCH1, BUB1B, and RHBDF2 genes. Structural modeling predicted that most missense variants resulted in the disruption of networks of interactions between residues, with implications for local secondary and tertiary structure elements. Functional annotation and network analyses showed that the involved DNA repair proteins functionally interact with each other, within the same DNA repair pathway and across different pathways. MAPK activation was a common event in tumor progression. This study supports that rare germline variants in DNA repair genes may be accountable for FNMTC susceptibility, with potential future utility in patients' clinical management, and reinforces the relevance of DICER1 in disease etiology.

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鉴定家族性非髓质甲状腺癌中与 DNA 损伤修复途径有关的新型候选易感基因
人们对非综合征家族性非髓性甲状腺癌(FNMTC)的遗传基础仍然知之甚少,因为迄今为止发现的易感基因只占遗传负荷的一小部分。最近,在甲状腺癌病例中发现了DNA修复相关基因的种系突变。为了弄清 FNMTC 的遗传基础,研究人员通过定向下一代测序(NGS)技术,对 48 个 FNMTC 家族中涉及遗传性癌症易感性的 94 个基因(包括 DNA 修复基因)进行了分析。基因变异是通过生物信息学分析和硅学研究筛选出来的。此外,还进行了结构建模和网络分析。NGS 数据的硅学研究结果揭示了 15 个 FNMTC 家族中可能存在的致病基因变异,这些变异存在于编码 DNA 修复蛋白的基因(ATM、CHEK2、ERCC2、BRCA2、ERCC4、FANCA、FANCD2、FANCF 和 PALB2)以及 DICER1、FLCN、PTCH1、BUB1B 和 RHBDF2 基因中。结构建模预测,大多数错义变异会导致残基间相互作用网络的破坏,从而对局部二级和三级结构元素产生影响。功能注释和网络分析显示,所涉及的 DNA 修复蛋白在同一 DNA 修复途径内和不同途径间存在功能上的相互作用。MAPK 激活是肿瘤进展过程中的常见事件。这项研究证实,DNA修复基因中的罕见种系变异可能是导致FNMTC易感性的原因之一,并有可能在患者的临床治疗中发挥作用,同时也加强了DICER1在疾病病因学中的相关性。
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来源期刊
CiteScore
13.40
自引率
3.10%
发文量
460
审稿时长
2 months
期刊介绍: The International Journal of Cancer (IJC) is the official journal of the Union for International Cancer Control—UICC; it appears twice a month. IJC invites submission of manuscripts under a broad scope of topics relevant to experimental and clinical cancer research and publishes original Research Articles and Short Reports under the following categories: -Cancer Epidemiology- Cancer Genetics and Epigenetics- Infectious Causes of Cancer- Innovative Tools and Methods- Molecular Cancer Biology- Tumor Immunology and Microenvironment- Tumor Markers and Signatures- Cancer Therapy and Prevention
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