DNA 跨链交叉连接修复基因中的种系变异可能是导致锯齿状息肉病综合征易感性增加的原因。

IF 5.6 2区 生物学 International Journal of Molecular Sciences Pub Date : 2024-11-04 DOI:10.3390/ijms252111848
Patrícia Silva, Inês Francisco, Bruno Filipe, Pedro Lage, Isadora Rosa, Sofia Fernandes, Ricardo Fonseca, Paula Rodrigues, Joana Parreira, Isabel Claro, Cristina Albuquerque
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引用次数: 0

摘要

锯齿状息肉病综合征(SPS)的特点是出现多发性结直肠锯齿状息肉,且易患结直肠癌(CRC)。然而,人们对 SPS 的分子基础,尤其是一级亲属中出现 SPS 和/或息肉和/或 CRC 家族史(SPS-FHP/CRC)的病例,仍然知之甚少。在之前的一项研究中,我们根据病变的偏好位置和参与肿瘤发生的体细胞事件,提出在 SPS-FHP/CRC 家族中存在两个分子实体,即近端/全结肠和远端 SPS-FHP/CRC。在本研究中,我们旨在从种系水平上对更大规模的 SPS 患者亚群进行研究,并确定这两种实体遗传易感性的基因缺陷。我们在 Miseq 平台上使用定制设计的多基因分析面板对 60 名 SPS 患者(患有和未患有/未知 FHP/CRC)进行了下一代测序。我们在 6/60 例患者中发现了种系致病变体(ATM、FANCM、MITF、RAD50、RAD51C 和 RNF43)。我们还在 23/60 例患者中发现了意义不明的变异(VUS),预测可能具有损伤作用(ATM、BLM、BRCA1、FAN1、ERCC2、ERCC3、FANCA、FANCD2、FANCL、MSH2、MSH6、NTHL1、PALB2、PDGFRA、PMS2、PTCH1、RAD51C、RAD51D、RECQL4、TSC2、WRN 和 XRCC5 基因)。大多数变异都发生在参与 DNA 跨链修复(ICLR)的范可尼贫血症(FA)通路蛋白的编码基因中。值得注意的是,ICLR基因变异在近端/全结肠亚组中的发生率明显高于远端亚组[15/44(34%) vs 1/16(6%),p = 0.025],而非ICLR基因变异在远端亚组中的发生率略高[8/44(18%) vs 5/16(31%),p > 0.05]。DNA-ICLR基因的种系缺陷可能会导致SPS患者,尤其是近端/全结肠SPS患者的锯齿状结直肠息肉/癌风险增加。应考虑将 DNA-ICLR 基因纳入 SPS 患者(主要是近端/全结肠病变患者)的基因诊断,并通过其他研究加以验证。此外,DNA-ICLR 基因有种系缺陷的患者可能对铂类药物治疗更敏感,这可能对这些患者的临床治疗产生影响。
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Germline Variants in DNA Interstrand-Cross Link Repair Genes May Contribute to Increased Susceptibility for Serrated Polyposis Syndrome.

Serrated polyposis syndrome (SPS) is characterized by the development of multiple colorectal serrated polyps and increased predisposition to colorectal cancer (CRC). However, the molecular basis of SPS, especially in cases presenting family history of SPS and/or polyps and/or CRC in first-degree relatives (SPS-FHP/CRC), is still poorly understood. In a previous study, we proposed the existence of two molecular entities amongst SPS-FHP/CRC families, proximal/whole-colon and distal SPS-FHP/CRC, according to the preferential location of lesions and somatic events involved in tumor initiation. In the present study, we aimed to investigate these distinct subgroups of SPS patients in a larger cohort at the germline level and to identify the genetic defects underlying an inherited susceptibility for these two entities. Next-generation sequencing was performed using multigene analysis with a custom-designed panel in a Miseq platform in 60 SPS patients (with and without/unknown FHP/CRC). We found germline pathogenic variants in 6/60 patients (ATM, FANCM, MITF, RAD50, RAD51C, and RNF43). We also found variants of unknown significance (VUS), with prediction of probable damaging effect in 23/60 patients (ATM, BLM, BRCA1, FAN1, ERCC2, ERCC3, FANCA, FANCD2, FANCL, MSH2, MSH6, NTHL1, PALB2, PDGFRA, PMS2, PTCH1, RAD51C, RAD51D, RECQL4, TSC2, WRN, and XRCC5 genes). Most variants were detected in gene coding for proteins of the Fanconi Anemia (FA) pathway involved in the DNA Interstrand-Cross Link repair (ICLR). Notably, variants in ICLR genes were significantly more frequent in the proximal/whole-colon than in the distal subgroup [15/44 (34%) vs 1/16 (6%), p = 0.025], as opposed to the non-ICLR genes that were slightly more frequent in the distal group [8/44 (18%) vs. 5/16 (31%), p > 0.05]. Germline defects in the DNA-ICLR genes may contribute to increased serrated colorectal polyps/carcinoma risk in SPS patients, particularly in proximal/whole-colon SPS. The inclusion of DNA-ICLR genes in the genetic diagnosis of SPS patients, mainly in those with proximal/whole-colon lesions, should be considered and validated by other studies. In addition, patients with germline defects in the DNA-ICLR genes may be more sensitive to treatment with platinum-based therapeutics, which can have implications in the clinical management of these patients.

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期刊介绍: The International Journal of Molecular Sciences (ISSN 1422-0067) provides an advanced forum for chemistry, molecular physics (chemical physics and physical chemistry) and molecular biology. It publishes research articles, reviews, communications and short notes. Our aim is to encourage scientists to publish their theoretical and experimental results in as much detail as possible. Therefore, there is no restriction on the length of the papers or the number of electronics supplementary files. For articles with computational results, the full experimental details must be provided so that the results can be reproduced. Electronic files regarding the full details of the calculation and experimental procedure, if unable to be published in a normal way, can be deposited as supplementary material (including animated pictures, videos, interactive Excel sheets, software executables and others).
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