Identification and functional characteristics of CHD1L gene variants implicated in human Müllerian duct anomalies.

IF 4.3 2区 生物学 Q1 BIOLOGY Biological Research Pub Date : 2024-09-28 DOI:10.1186/s40659-024-00550-w
Shuya Chen, Yali Fan, Yujun Sun, Shenghui Li, Zhi Zheng, Chunfang Chu, Lin Li, Chenghong Yin
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Abstract

Background: Müllerian duct anomalies (MDAs) are congenital developmental disorders that present as a series of abnormalities within the reproductive tracts of females. Genetic factors are linked to MDAs and recent advancements in whole-exome sequencing (WES) provide innovative perspectives in this field. However, relevant mechanism has only been investigated in a restricted manner without clear elucidation of respective observations.

Methods: Our previous study reported that 2 of 12 patients with MDAs harbored the CHD1L variant c.348-1G>C. Subsequently, an additional 85 MDAs patients were recruited. Variants in CHD1L were screened through the in-house database of WES performed in the cohort and two cases were identified. One presented with partial septate uterus with left renal agenesis and the other with complete septate uterus, duplicated cervices and longitudinal vaginal septum. The pathogenicity of the discovered variants was further assessed by molecular dynamics simulation and various functional assays.

Results: Ultimately, two novel heterozygous CHD1L variants, including a missense variant c.956G>A (p.R319Q) and a nonsense variant c.1831C>T (p.R611*) were observed. The variants were absent in 100 controls. Altogether, the contribution yield of CHD1L to MDAs was calculated as 4.12% (4/97). All three variants were assessed as pathogenic through various functional analysis. The splice-site variant c.348-1G>C resulted in a 11 bp sequence skipping in exon 4 of CHD1L and led to nonsense mediated decay of its transcripts. Unlike WT CHD1L, the truncated R611* protein mislocalized to the cytoplasm, abolish the ability of CHD1L to promote cell migration and failed to interact with PARP1 owing to the loss of macro domain. The R319Q variant exhibited conformational disparities and showed abnormal protein recruitment behavior through laser microirradiation comparing with the WT CHD1L. All these variants impaired the CHD1L function in DNA damage repair, thus participating in MDAs.

Conclusions: The current study not only expands the mutational spectrum of CHD1L in MDAs but determines three variants as pathogenic according to ACMG guidelines with reliable functional evidence. Additionally, the impairment in DNA damage repair is an underlying mechanism involved in MDAs.

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与人类穆勒氏管异常有关的 CHD1L 基因变异的鉴定和功能特征。
背景:穆勒氏管畸形(MDAs)是一种先天性发育障碍,表现为女性生殖道内的一系列异常。遗传因素与 MDAs 有关,全外显子组测序(WES)的最新进展为这一领域提供了创新视角。然而,对相关机制的研究还很有限,没有明确阐明各自的观察结果:我们之前的研究发现,12 例 MDA 患者中有 2 例携带 CHD1L 变异 c.348-1G>C。随后,我们又招募了 85 名 MDAs 患者。通过队列中进行的 WES 的内部数据库筛查 CHD1L 变异,发现了两个病例。其中一例表现为部分隔子宫伴左肾发育不全,另一例表现为完全隔子宫、重复宫颈和阴道纵隔。通过分子动力学模拟和各种功能测试,进一步评估了所发现变体的致病性:结果:最终观察到两个新型杂合CHD1L变异,包括一个错义变异c.956G>A(p.R319Q)和一个无义变异c.1831C>T(p.R611*)。这些变异在 100 例对照中均不存在。经计算,CHD1L 对 MDA 的贡献率为 4.12% (4/97)。通过各种功能分析,这三个变异都被评估为致病性变异。剪接位点变异c.348-1G>C导致CHD1L第4外显子出现11 bp的序列跳转,并导致其转录本出现无义介导的衰减。与 WT CHD1L 不同的是,截短的 R611* 蛋白会错误地定位到细胞质中,取消了 CHD1L 促进细胞迁移的能力,并且由于失去了宏域而无法与 PARP1 相互作用。与 WT CHD1L 相比,R319Q 变体表现出构象差异,在激光微照射下表现出异常的蛋白质招募行为。所有这些变体都损害了CHD1L在DNA损伤修复中的功能,从而参与了MDAs:目前的研究不仅扩展了MDAs中CHD1L的变异谱,而且根据ACMG指南确定了三个变异体为致病性变异体,并提供了可靠的功能证据。此外,DNA损伤修复障碍是MDAs的一个潜在机制。
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来源期刊
Biological Research
Biological Research 生物-生物学
CiteScore
10.10
自引率
0.00%
发文量
33
审稿时长
>12 weeks
期刊介绍: Biological Research is an open access, peer-reviewed journal that encompasses diverse fields of experimental biology, such as biochemistry, bioinformatics, biotechnology, cell biology, cancer, chemical biology, developmental biology, evolutionary biology, genetics, genomics, immunology, marine biology, microbiology, molecular biology, neuroscience, plant biology, physiology, stem cell research, structural biology and systems biology.
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