Valle Laura, Hernández-Illán Eva, Bellido Fernando, Aiza Gemma, Castillejo Adela, Castillejo María-Isabel, Navarro Matilde, Seguí Nuria, Vargas Gardenia, Guarinos Carla, Juarez Miriam, Sanjuán Xavier, Iglesias Silvia, Alenda Cristina, Egoavil Cecilia, Segura Ángel, Juan María-José, Rodriguez-Soler María, Brunet Joan, González Sara, Jover Rodrigo, Lázaro Conxi, Capellá Gabriel, Pineda Marta, Soto José Luís, Blanco Ignacio
Hereditary Cancer Program and
Research Laboratory.
Hum Mol Genet. 2014 Jul 1;23(13):3506-12. doi: 10.1093/hmg/ddu058. Epub 2014 Feb 5.
Germline mutations in DNA polymerase ɛ (POLE) and δ (POLD1) have been recently identified in families with multiple colorectal adenomas and colorectal cancer (CRC). All reported cases carried POLE c.1270C>G (p.Leu424Val) or POLD1 c.1433G>A (p.Ser478Asn) mutations. Due to the scarcity of cases reported so far, an accurate clinical phenotype has not been defined. We aimed to assess the prevalence of these recurrent mutations in unexplained familial and early-onset CRC and polyposis, and to add additional information to define the clinical characteristics of mutated cases. A total of 858 familial/early onset CRC and polyposis patients were studied: 581 familial and early-onset CRC cases without mismatch repair (MMR) deficiency, 86 cases with MMR deficiency and 191 polyposis cases. Mutation screening was performed by KASPar genotyping assays and/or Sanger sequencing of the involved exons. POLE p.L424V was identified in a 28-year-old polyposis and CRC patient, as a de novo mutation. None of the 858 cases studied carried POLD1 p.S478N. A new mutation, POLD1 c.1421T>C (p.Leu474Pro), was identified in a mismatch repair proficient Amsterdam II family. Its pathogenicity was supported by cosegregation in the family, in silico predictions, and previously published yeast assays. POLE and POLD1 mutations explain a fraction of familial CRC and polyposis. Sequencing the proofreading domains of POLE and POLD1 should be considered in routine genetic diagnostics. Until additional evidence is gathered, POLE and POLD1 genetic testing should not be restricted to polyposis cases, and the presence of de novo mutations, considered.
最近在患有多发性结肠直肠腺瘤和结直肠癌(CRC)的家族中发现了DNA聚合酶ɛ(POLE)和δ(POLD1)的种系突变。所有报告的病例均携带POLE基因c.1270C>G(p.Leu424Val)或POLD1基因c.1433G>A(p.Ser478Asn)突变。由于目前报道的病例较少,尚未明确准确的临床表型。我们旨在评估这些复发性突变在不明原因的家族性和早发性CRC及息肉病中的患病率,并补充更多信息以明确突变病例的临床特征。共研究了858例家族性/早发性CRC和息肉病患者:581例无错配修复(MMR)缺陷的家族性和早发性CRC病例、86例MMR缺陷病例以及191例息肉病病例。通过KASPar基因分型检测和/或对相关外显子进行Sanger测序进行突变筛查。在一名28岁的息肉病和CRC患者中发现了POLE基因p.L424V的新发突变。在研究的858例病例中,无一例携带POLD1基因p.S478N突变。在一个错配修复功能正常的阿姆斯特丹II型家族中发现了一个新的突变,即POLD1基因c.1421T>C(p.Leu474Pro)。该家族中的共分离现象、计算机模拟预测以及先前发表的酵母试验均支持其致病性。POLE和POLD1突变可解释一部分家族性CRC和息肉病。在常规基因诊断中应考虑对POLE和POLD1的校对结构域进行测序。在收集到更多证据之前,POLE和POLD1基因检测不应仅限于息肉病病例,还应考虑新发突变的存在。
