Service d'hématologie biologique, Centre de Biologie et Pathologie Est, Bron (69500) Hospices Civils de Lyon, France; EA 4609 Hémostase et cancer, Lyon (69008), Université Claude Bernard Lyon 1, Univ Lyon, France.
Laboratoire de Cardiogénétique Moléculaire, Centre de Biologie et Pathologie Est, Bron (69500), Hospices Civils de Lyon, France; Institut NeuroMyoGène, Université Claude Bernard Lyon 1, Univ Lyon, France, CNRS UMR 5510, Villeurbanne (69100), France; INSERM U1217, Villeurbanne, France.
Am J Hum Genet. 2018 Feb 1;102(2):199-206. doi: 10.1016/j.ajhg.2017.12.010. Epub 2018 Jan 18.
Incorporation of distant intronic sequences in mature mRNA is an underappreciated cause of genetic disease. Several disease-causing pseudoexons have been found to contain repetitive elements such as Alu elements. This study describes an original pathological mechanism by which a small intronic deletion leads to Alu exonization. We identified an intronic deletion, c.2113+461_2113+473del, in the F8 intron 13, in two individuals with mild hemophilia A. In vivo and in vitro transcript analysis found an aberrant transcript, with an insertion of a 122-bp intronic fragment (c.2113_2114ins2113+477_2113+598) at the exon 13-14 junction. This out-of-frame insertion is predicted to lead to truncated protein (p.Gly705Aspfs37). DNA sequencing analysis found that the pseudoexon corresponds to antisense AluY element and the deletion removed a part of the poly(T)-tail from the right arm of these AluY. The heterogenous nuclear riboprotein C1/C2 (hnRNP C) is an important antisense Alu-derived cryptic exon silencer and binds to poly(T)-tracts. Disruption of the hnRNP C binding site in AluY T-tract by mutagenesis or hnRNP C knockdown using siRNA in HeLa cells reproduced the effect of c.2113+461_2113+473del. The screening of 114 unrelated families with mild hemophilia A in whom no genetic event was previously identified found a deletion in the poly(T)-tail of AluY in intron 13 in 54% of case subjects (n = 61/114). In conclusion, this study describes a deletion leading to Alu exonization found in 6.1% of families with mild hemophila A in France.
内含子序列在成熟 mRNA 中的掺入是遗传疾病被低估的一个原因。已经发现几个致病假外显子含有重复元件,如 Alu 元件。本研究描述了一种新的病理机制,即小的内含子缺失导致 Alu 外显子化。我们在两个轻度血友病 A 患者的 F8 内含子 13 中发现了一个内含子缺失,c.2113+461_2113+473del。体内和体外转录分析发现了一种异常转录本,在exon 13-14 交界处插入了一个 122bp 的内含子片段(c.2113_2114ins2113+477_2113+598)。这种移码插入预计会导致截短的蛋白(p.Gly705Aspfs37)。DNA 测序分析发现,假外显子对应于反义 AluY 元件,缺失部分从这些 AluY 的右臂上除去了 poly(T)-尾。异质核核糖核蛋白 C1/C2(hnRNP C)是重要的反义 Alu 衍生的隐蔽外显子沉默子,与 poly(T)-tract 结合。在 HeLa 细胞中用 siRNA 进行 hnRNP C 敲低或用突变体破坏 AluY T-tract 中的 hnRNP C 结合位点,可重现 c.2113+461_2113+473del 的作用。在先前未发现遗传事件的 114 个无关轻度血友病 A 家族的筛查中,发现 54%(n = 61/114)的病例个体的内含子 13 中的 AluY poly(T)-尾缺失。总之,本研究描述了在法国 6.1%的轻度血友病 A 家族中发现的导致 Alu 外显子化的缺失。
