两名常染色体隐性遗传性Bestrophin病患者中的一个同义密码子变体改变了BEST1的体外剪接。
A synonymous codon variant in two patients with autosomal recessive bestrophinopathy alters in vitro splicing of BEST1.
作者信息
Davidson Alice E, Sergouniotis Panagiotis I, Burgess-Mullan Rosemary, Hart-Holden Nichola, Low Sancy, Foster Paul J, Manson Forbes D C, Black Graeme C M, Webster Andrew R
机构信息
School of Biomedicine, The University of Manchester, Manchester Academic Health Science Centre, Central Manchester University Hospitals NHS Foundation Trust, Manchester, UK.
出版信息
Mol Vis. 2010 Dec 31;16:2916-22.
PURPOSE
Autosomal recessive bestrophinopathy (ARB) is a newly defined retinal dystrophy caused by biallelic mutations in bestrophin-1 (BEST1) and is hypothesized to represent the null bestrophin-1 phenotype in humans. The aim was to determine whether a synonymous BEST1 variant, c.102C>T, identified in two unrelated ARB patients, alters pre-mRNA splicing of the gene. Additionally a detailed phenotypic characterization of this distinctive condition is presented for both patients.
METHODS
BEST1 was analyzed by direct sequencing. Patients underwent standard ophthalmic assessment. In silico and in vitro analysis using a minigene system was performed to assess whether a synonymous variant identified, c.102C>T p.Gly34Gly, alters pre-mRNA splicing of BEST1.
RESULTS
Both ARB patients harbored either proven (patient 1; c.102C>T p.Gly34Gly and c.572T>C p.Leu191Pro) or presumed (patient 2; c.102C>T p.Gly34Gly and c.1470_1471delCA, p.His490GlnfsX24) biallelic mutations in BEST1 and were found to have phenotypes consistent with ARB. In vitro analysis of the synonymous variant, c.102C>T p.Gly34Gly, demonstrated it to introduce a cryptic splice donor site 52 nucleotides upstream of the actual splice donor site.
CONCLUSIONS
The novel BEST1 variant identified, c.102C>T p.Gly34Gly, alters pre-mRNA splicing in vitro and is potentially pathogenic. In vivo this splicing variant is predicted to lead to the production of an mRNA transcript with a premature termination codon (p.Glu35TrpfsX11) that is predicted to be degraded by NMD.
目的
常染色体隐性遗传性Bestrophin病(ARB)是一种新定义的视网膜营养不良,由Bestrophin-1(BEST1)的双等位基因突变引起,据推测代表人类中Bestrophin-1的无效表型。目的是确定在两名无关的ARB患者中鉴定出的同义BEST1变体c.102C>T是否会改变该基因的前体mRNA剪接。此外,还对两名患者的这种独特病症进行了详细的表型特征描述。
方法
通过直接测序分析BEST1。患者接受标准眼科评估。使用小基因系统进行了计算机模拟和体外分析,以评估鉴定出的同义变体c.102C>T p.Gly34Gly是否会改变BEST1的前体mRNA剪接。
结果
两名ARB患者均携带已证实的(患者1;c.102C>T p.Gly34Gly和c.572T>C p.Leu191Pro)或推测的(患者2;c.102C>T p.Gly34Gly和c.1470_1471delCA,p.His490GlnfsX24)BEST1双等位基因突变,并且发现其表型与ARB一致。对同义变体c.102C>T p.Gly34Gly的体外分析表明,它在实际剪接供体位点上游52个核苷酸处引入了一个隐蔽剪接供体位点。
结论
鉴定出的新型BEST1变体c.102C>T p.Gly34Gly在体外改变了前体mRNA剪接,具有潜在致病性。在体内,这种剪接变体预计会导致产生带有提前终止密码子(p.Glu35TrpfsX11)的mRNA转录本,预计该转录本会被NMD降解。
Zotero 插件