Shchagina Olga, Gilazova Leisan, Filatova Alexandra, Vafina Zulfiia, Murtazina Aysylu, Chigvintceva Polina, Kudryashova Olga, Polyakov Aleksander, Kutsev Sergey, Bulakh Maria, Skoblov Mikhail
Research Centre for Medical Genetics, 115522 Moscow, Russia.
Republic of Tatarstan Ministry of Healthcare Autonomous Public Healthcare, Institution Republic Clinical Hospital, 420064 Kazan, Russia.
Int J Mol Sci. 2025 Jan 25;26(3):1015. doi: 10.3390/ijms26031015.
Laminopathies are a broad spectrum of hereditary diseases caused by pathogenic variants of the gene. Such phenotypic diversity is explained by the function of intermediate filaments encoded by the gene. We examined a family with an overlapping phenotype of cardiac arrhythmia, cardiomyopathy, limb-girdle muscular dystrophy, and partial lipodystrophy. The cause of the disorder was a novel (NM_170707.4):c.1488+2T>C variant. The analysis of mRNA extracted from the probands' blood showed a multitude of alternative splicing products, which was the cause of the complex phenotype in affected family members. Aside from that, we used minigene constructs to analyze the c.1488+2T>C variant, as well as other previously described variants affecting the same donor splice site in intron 8 (c.1488+1G>A, c.1488+5G>C, c.1488+5G>A). We demonstrated that these variants result in multiple splicing events, each producing splicing products with varying prevalence. Our experiments suggest that the variety of alternative transcripts contributes to complex phenotypes, while the quantitative ratio of these transcripts influences the varying severity of the disease.
核纤层蛋白病是由该基因的致病变异引起的一系列广泛的遗传性疾病。这种表型多样性是由该基因编码的中间丝的功能所解释的。我们研究了一个具有心律失常、心肌病、肢带型肌营养不良和部分脂肪营养不良重叠表型的家系。该疾病的病因是一种新的(NM_170707.4):c.1488+2T>C变异。对先证者血液中提取的mRNA的分析显示出大量的可变剪接产物,这是受影响家庭成员复杂表型的原因。除此之外,我们使用小基因构建体来分析c.1488+2T>C变异,以及其他先前描述的影响内含子8中相同供体剪接位点的变异(c.1488+1G>A、c.1488+5G>C、c.1488+5G>A)。我们证明这些变异导致多种剪接事件,每种事件产生的剪接产物具有不同的发生率。我们的实验表明,可变转录本的多样性导致复杂表型,而这些转录本的定量比例影响疾病的不同严重程度。
