Novel molecular, structural and clinical findings in an Italian cohort of congenital cataract

IF 2.9 3区医学 Q2 GENETICS & HEREDITY Clinical Genetics Pub Date : 2024-06-05 DOI:10.1111/cge.14568

Mauro Lecca, Lucia Mauri, Simone Gana, Alessandra Del Longo, Federica Morelli, Roberta Nicotra, Massimo Plumari, Jessica Galli, Fabio Sirchia, Enza Maria Valente, Ugo Cavallari, Marco Mazza, Sabrina Signorini, Edoardo Errichiello

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Abstract

The current genetic diagnostic workup of congenital cataract (CC) is mainly based on NGS panels, whereas exome sequencing (ES) has occasionally been employed. In this multicentre study, we investigated by ES the detection yield, mutational spectrum and genotype–phenotype correlations in a CC cohort recruited between 2020 and mid-2022. The cohort consisted of 67 affected individuals from 51 unrelated families and included both non-syndromic (75%) and syndromic (25%) phenotypes, with extra-CC ocular/visual features present in both groups (48% and 76%, respectively). The functional effect of variants was predicted by 3D modelling and hydropathy properties changes. Variant clustering was used for the in-depth assessment of genotype–phenotype correlations. A diagnostic (pathogenic or likely pathogenic) variant was identified in 19 out of 51 probands/families (~37%). In a further 14 probands/families a candidate variant was identified: in 12 families a VUS was detected, of which 9 were considered plausibly pathogenic (i.e., 4 or 5 points according to ACMG criteria), while in 2 probands ES identified a single variant in an autosomal recessive gene associated with CC. Eighteen probands/families, manifesting primarily non-syndromic CC (15/18, 83%), remained unsolved. The identified variants (8 P, 12 LP, 10 VUS-PP, and 5 VUS), half of which were unreported in the literature, affected five functional categories of genes involved in transcription/splicing, lens formation/homeostasis (i.e., crystallin genes), membrane signalling, cell–cell interaction, and immune response. A phenotype-specific variant clustering was observed in four genes (KIF1A, MAF, PAX6, SPTAN1), whereas variable expressivity and potential phenotypic expansion in two (BCOR, NHS) and five genes (CWC27, KIF1A, IFIH1, PAX6, SPTAN1), respectively. Finally, ES allowed to detect variants in six genes not commonly included in commercial CC panels. These findings broaden the genotype–phenotype correlations in one of the largest CC cohorts tested by ES, providing novel insights into the underlying pathogenetic mechanisms and emphasising the power of ES as first-tier test.

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意大利先天性白内障队列中的分子、结构和临床新发现。

目前，先天性白内障（CC）的基因诊断工作主要基于 NGS 面板，偶尔也会使用外显子组测序（ES）。在这项多中心研究中，我们通过 ES 对 2020 年至 2022 年中期招募的 CC 队列中的检测率、突变谱和基因型表型相关性进行了调查。该队列由来自 51 个无血缘关系家庭的 67 名受影响个体组成，包括非综合征（75%）和综合征（25%）两种表型，两组患者中都有 CC 以外的眼部/视觉特征（分别为 48% 和 76%）。变异体的功能效应是通过三维建模和水病特性变化预测的。变异聚类用于深入评估基因型与表型的相关性。在 51 个受试者/家庭中，有 19 个（约占 37%）确定了诊断性（致病性或可能致病性）变异。在另外 14 个受试者/家庭中发现了候选变体：在 12 个家庭中检测到了 VUS，其中 9 个被认为可能致病（即根据 ACMG 标准达到 4 或 5 点），而在 2 个受试者中，ES 在与 CC 相关的常染色体隐性基因中发现了单个变体。18个主要表现为非综合征CC（15/18，83%）的探明者/家庭仍未解决问题。已确定的变异（8 个 P、12 个 LP、10 个 VUS-PP 和 5 个 VUS）有一半在文献中未报道过，这些变异影响了涉及转录/剪接、晶状体形成/稳态（即晶状体蛋白基因）、膜信号、细胞-细胞相互作用和免疫反应的五类功能基因。在四个基因（KIF1A、MAF、PAX6、SPTAN1）中观察到了表型特异性变异集群，而在两个基因（BCOR、NHS）和五个基因（CWC27、KIF1A、IFIH1、PAX6、SPTAN1）中分别观察到了变异表达和潜在表型扩展。最后，ES 可以检测到商业 CC 面板中不常见的六个基因的变异。这些发现拓宽了 ES 检测的最大 CC 队列之一的基因型与表型之间的相关性，为了解潜在的发病机制提供了新的视角，并强调了 ES 作为第一级检测的能力。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Clinical Genetics 医学-遗传学

CiteScore

6.50

自引率

0.00%

发文量

175

审稿时长

3-8 weeks

期刊介绍： Clinical Genetics links research to the clinic, translating advances in our understanding of the molecular basis of genetic disease for the practising clinical geneticist. The journal publishes high quality research papers, short reports, reviews and mini-reviews that connect medical genetics research with clinical practice. Topics of particular interest are: • Linking genetic variations to disease • Genome rearrangements and disease • Epigenetics and disease • The translation of genotype to phenotype • Genetics of complex disease • Management/intervention of genetic diseases • Novel therapies for genetic diseases • Developmental biology, as it relates to clinical genetics • Social science research on the psychological and behavioural aspects of living with or being at risk of genetic disease