Walne Amanda J, Collopy Laura, Cardoso Shirleny, Ellison Alicia, Plagnol Vincent, Albayrak Canan, Albayrak Davut, Kilic Sara Sebnem, Patıroglu Turkan, Akar Haluk, Godfrey Keith, Carter Tina, Marafie Makia, Vora Ajay, Sundin Mikael, Vulliamy Thomas, Tummala Hemanth, Dokal Inderjeet
Centre for Genomics and Child Health, Blizard Institute, Barts and The London School of Medicine and Dentistry, Queen Mary University of London, Barts NHS Trust, London, UK
Centre for Genomics and Child Health, Blizard Institute, Barts and The London School of Medicine and Dentistry, Queen Mary University of London, Barts NHS Trust, London, UK.
Haematologica. 2016 Oct;101(10):1180-1189. doi: 10.3324/haematol.2016.147769. Epub 2016 Sep 9.
Dyskeratosis congenita is a highly pleotropic genetic disorder. This heterogeneity can lead to difficulties in making an accurate diagnosis and delays in appropriate management. The aim of this study was to determine the underlying genetic basis in patients presenting with features of dyskeratosis congenita and who were negative for mutations in the classical dyskeratosis congenita genes. By whole exome and targeted sequencing, we identified biallelic variants in genes that are not associated with dyskeratosis congenita in 17 individuals from 12 families. Specifically, these were homozygous variants in USB1 (8 families), homozygous missense variants in GRHL2 (2 families) and identical compound heterozygous variants in LIG4 (2 families). All patients had multiple somatic features of dyskeratosis congenita but not the characteristic short telomeres. Our case series shows that biallelic variants in USB1, LIG4 and GRHL2, the genes mutated in poikiloderma with neutropenia, LIG4/Dubowitz syndrome and the recently recognized ectodermal dysplasia/short stature syndrome, respectively, cause features that overlap with dyskeratosis congenita. Strikingly, these genes also overlap in their biological function with the known dyskeratosis congenita genes that are implicated in telomere maintenance and DNA repair pathways. Collectively, these observations demonstrate the marked overlap of dyskeratosis congenita with four other genetic syndromes, confounding accurate diagnosis and subsequent management. This has important implications for establishing a genetic diagnosis when a new patient presents in the clinic. Patients with clinical features of dyskeratosis congenita need to have genetic analysis of USB1, LIG4 and GRHL2 in addition to the classical dyskeratosis congenita genes and telomere length measurements.
先天性角化不良是一种具有高度多效性的遗传性疾病。这种异质性可能导致准确诊断困难以及适当治疗延迟。本研究的目的是确定表现出先天性角化不良特征且经典先天性角化不良基因的突变检测呈阴性的患者的潜在遗传基础。通过全外显子组测序和靶向测序,我们在来自12个家庭的17名个体中鉴定出了与先天性角化不良无关的基因中的双等位基因变异。具体而言,这些变异包括USB1中的纯合变异(8个家庭)、GRHL2中的纯合错义变异(2个家庭)以及LIG4中的相同复合杂合变异(2个家庭)。所有患者均具有多种先天性角化不良的体细胞特征,但没有特征性的短端粒。我们的病例系列表明,USB1、LIG4和GRHL2中的双等位基因变异分别导致了与先天性角化不良重叠的特征,这些基因在先天性角化不良伴中性粒细胞减少症、LIG4/杜波维茨综合征以及最近发现的外胚层发育不良/身材矮小综合征中发生突变。引人注目的是,这些基因在生物学功能上也与已知的参与端粒维持和DNA修复途径的先天性角化不良基因重叠。总体而言,这些观察结果表明先天性角化不良与其他四种遗传综合征存在明显重叠,这给准确诊断和后续治疗带来了困扰。这对于在临床中遇到新患者时进行基因诊断具有重要意义。具有先天性角化不良临床特征的患者除了对经典先天性角化不良基因进行检测和测量端粒长度外,还需要对USB1、LIG4和GRHL2进行基因分析。
