Dumanski Jan P, Rasi Chiara, Björklund Peyman, Davies Hanna, Ali Abir S, Grönberg Malin, Welin Staffan, Sorbye Halfdan, Grønbæk Henning, Cunningham Janet L, Forsberg Lars A, Lind Lars, Ingelsson Erik, Stålberg Peter, Hellman Per, Tiensuu Janson Eva
Department of ImmunologyGenetics and Pathology and SciLifeLab, Uppsala University, Uppsala, Sweden.
Department of Surgical SciencesExperimental Surgery, Uppsala University, Uppsala, Sweden.
Endocr Relat Cancer. 2017 Aug;24(8):427-443. doi: 10.1530/ERC-17-0196. Epub 2017 Jun 20.
The genetics behind predisposition to small intestinal neuroendocrine tumors (SI-NETs) is largely unknown, but there is growing awareness of a familial form of the disease. We aimed to identify germline mutations involved in the carcinogenesis of SI-NETs. The strategy included next-generation sequencing of exome- and/or whole-genome of blood DNA, and in selected cases, tumor DNA, from 24 patients from 15 families with the history of SI-NETs. We identified seven candidate mutations in six genes that were further studied using 215 sporadic SI-NET patients. The result was compared with the frequency of the candidate mutations in three control cohorts with a total of 35,688 subjects. A heterozygous variant causing an amino acid substitution p.(Gly396Asp) in the MutY DNA glycosylase gene () was significantly enriched in SI-NET patients (minor allele frequencies 0.013 and 0.003 for patients and controls respectively) and resulted in odds ratio of 5.09 (95% confidence interval 1.56-14.74; value = 0.0038). We also found a statistically significant difference in age at diagnosis between familial and sporadic SI-NETs. is involved in the protection of DNA from mutations caused by oxidative stress. The inactivation of this gene leads to specific increase of G:C- > T:A transversions in DNA sequence and has been shown to cause various cancers in humans and experimental animals. Our results suggest that p.(Gly396Asp) in , and potentially other mutations in additional members of the same DNA excision-repair pathway (such as the gene) might be involved in driving the tumorigenesis leading to familial and sporadic SI-NETs.
小肠神经内分泌肿瘤(SI-NETs)易感性背后的遗传学机制在很大程度上尚不清楚,但人们对该疾病的家族形式的认识正在不断增加。我们旨在鉴定参与SI-NETs致癌过程的种系突变。该策略包括对来自15个有SI-NETs病史家庭的24名患者的血液DNA进行外显子组和/或全基因组的二代测序,在选定病例中还包括肿瘤DNA测序。我们在六个基因中鉴定出七个候选突变,并使用215例散发性SI-NETs患者对其进行了进一步研究。将结果与三个共35,688名受试者的对照队列中候选突变的频率进行了比较。MutY DNA糖基化酶基因()中一个导致氨基酸替换p.(Gly396Asp)的杂合变异在SI-NETs患者中显著富集(患者和对照的次要等位基因频率分别为0.013和0.003),并导致优势比为5.09(95%置信区间1.56 - 14.74;P值 = 0.0038)。我们还发现家族性和散发性SI-NETs在诊断年龄上存在统计学显著差异。 参与保护DNA免受氧化应激引起的突变。该基因的失活导致DNA序列中G:C - > T:A颠换的特异性增加,并已被证明在人类和实验动物中会引发各种癌症。我们的结果表明,MutY基因中的p.(Gly396Asp)以及同一DNA切除修复途径其他成员(如 基因)中的潜在其他突变可能参与驱动导致家族性和散发性SI-NETs的肿瘤发生。
