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本文引用的文献

1
Comprehensive EHMT1 variants analysis broadens genotype-phenotype associations and molecular mechanisms in Kleefstra syndrome.全面的 EHMT1 变异分析拓宽了 Kleefstra 综合征的基因型-表型关联和分子机制。
Am J Hum Genet. 2024 Aug 8;111(8):1605-1625. doi: 10.1016/j.ajhg.2024.06.008. Epub 2024 Jul 15.
2
Expanding the phenotype of Kleefstra syndrome: speech, language and cognition in 103 individuals.扩展 Kleefstra 综合征表型:103 例患者的言语、语言和认知功能。
J Med Genet. 2024 May 21;61(6):578-585. doi: 10.1136/jmg-2023-109702.
3
Accurate proteome-wide missense variant effect prediction with AlphaMissense.使用 AlphaMissense 进行精确的全蛋白质错义变异效应预测。
Science. 2023 Sep 22;381(6664):eadg7492. doi: 10.1126/science.adg7492.
4
PhenoScore quantifies phenotypic variation for rare genetic diseases by combining facial analysis with other clinical features using a machine-learning framework.PhenoScore 通过使用机器学习框架将面部分析与其他临床特征相结合,对罕见遗传疾病的表型变异进行量化。
Nat Genet. 2023 Sep;55(9):1598-1607. doi: 10.1038/s41588-023-01469-w. Epub 2023 Aug 7.
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ANKRD11 pathogenic variants and 16q24.3 microdeletions share an altered DNA methylation signature in patients with KBG syndrome.ANKRD11 致病性变异与 16q24.3 微缺失在 KBG 综合征患者中具有改变的 DNA 甲基化特征。
Hum Mol Genet. 2023 Apr 20;32(9):1429-1438. doi: 10.1093/hmg/ddac289.
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The UCSC Genome Browser database: 2023 update.UCSC 基因组浏览器数据库:2023 年更新。
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Genomic architecture of autism from comprehensive whole-genome sequence annotation.自闭症的全基因组序列注释的基因组结构。
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Genes (Basel). 2022 Sep 29;13(10):1761. doi: 10.3390/genes13101761.
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An HNRNPK-specific DNA methylation signature makes sense of missense variants and expands the phenotypic spectrum of Au-Kline syndrome.一个 HNRNPK 特异性 DNA 甲基化特征解释了错义变异,并扩展了 Au-Kline 综合征的表型谱。
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KMT2C 中的致病性变异导致一种与 Kleefstra 和 Kabuki 综合征不同的神经发育障碍。

Pathogenic variants in KMT2C result in a neurodevelopmental disorder distinct from Kleefstra and Kabuki syndromes.

机构信息

Department of Human Genetics, Radboud University Medical Center, Nijmegen, the Netherlands; Department of Clinical Genetics, Erasmus MC, Rotterdam, the Netherlands; Genetics Laboratory, Children's Clinical University Hospital, Riga, Latvia.

Genetics and Genome Biology Program, Research Institute, the Hospital for Sick Children, Toronto, ON M5G 1X8, Canada.

出版信息

Am J Hum Genet. 2024 Aug 8;111(8):1626-1642. doi: 10.1016/j.ajhg.2024.06.009. Epub 2024 Jul 15.

DOI:10.1016/j.ajhg.2024.06.009
PMID:39013459
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11339626/
Abstract

Trithorax-related H3K4 methyltransferases, KMT2C and KMT2D, are critical epigenetic modifiers. Haploinsufficiency of KMT2C was only recently recognized as a cause of neurodevelopmental disorder (NDD), so the clinical and molecular spectrums of the KMT2C-related NDD (now designated as Kleefstra syndrome 2) are largely unknown. We ascertained 98 individuals with rare KMT2C variants, including 75 with protein-truncating variants (PTVs). Notably, ∼15% of KMT2C PTVs were inherited. Although the most highly expressed KMT2C transcript consists of only the last four exons, pathogenic PTVs were found in almost all the exons of this large gene. KMT2C variant interpretation can be challenging due to segmental duplications and clonal hematopoesis-induced artifacts. Using samples from 27 affected individuals, divided into discovery and validation cohorts, we generated a moderate strength disorder-specific KMT2C DNA methylation (DNAm) signature and demonstrate its utility in classifying non-truncating variants. Based on 81 individuals with pathogenic/likely pathogenic variants, we demonstrate that the KMT2C-related NDD is characterized by developmental delay, intellectual disability, behavioral and psychiatric problems, hypotonia, seizures, short stature, and other comorbidities. The facial module of PhenoScore, applied to photographs of 34 affected individuals, reveals that the KMT2C-related facial gestalt is significantly different from the general NDD population. Finally, using PhenoScore and DNAm signatures, we demonstrate that the KMT2C-related NDD is clinically and epigenetically distinct from Kleefstra and Kabuki syndromes. Overall, we define the clinical features, molecular spectrum, and DNAm signature of the KMT2C-related NDD and demonstrate they are distinct from Kleefstra and Kabuki syndromes highlighting the need to rename this condition.

摘要

三结构域蛋白(trithorax-related protein,Trx)相关组蛋白 H3K4 甲基转移酶,KMT2C 和 KMT2D,是关键的表观遗传修饰因子。KMT2C 单倍不足最近才被认为是神经发育障碍(neurodevelopmental disorder,NDD)的一个原因,因此 KMT2C 相关 NDD(现命名为 Kleefstra 综合征 2)的临床和分子谱很大程度上仍不清楚。我们确定了 98 名 KMT2C 罕见变异个体,其中 75 名个体存在蛋白截断变异(protein-truncating variants,PTV)。值得注意的是,约 15%的 KMT2C PTV 是遗传的。虽然表达量最高的 KMT2C 转录本仅包含最后四个外显子,但致病性 PTV 几乎存在于这个大基因的所有外显子中。由于存在片段重复和克隆性造血诱导的假象,KMT2C 变异的解读可能具有挑战性。使用来自 27 名受影响个体的样本,分为发现队列和验证队列,我们生成了中等强度的、疾病特异性的 KMT2C DNA 甲基化(DNAm)特征,并证明其可用于分类非截断变异。基于 81 名携带致病性/可能致病性变异的个体,我们证明 KMT2C 相关 NDD 的特征为发育迟缓、智力残疾、行为和精神问题、肌张力减退、癫痫发作、身材矮小和其他合并症。应用于 34 名受影响个体的照片的 PhenoScore 面部模块显示,KMT2C 相关的面部整体特征与一般 NDD 人群明显不同。最后,使用 PhenoScore 和 DNAm 特征,我们证明 KMT2C 相关 NDD 在临床和表观遗传上与 Kleefstra 和 Kabuki 综合征不同。总之,我们定义了 KMT2C 相关 NDD 的临床特征、分子谱和 DNAm 特征,并证明它们与 Kleefstra 和 Kabuki 综合征不同,这突出了重新命名这种疾病的必要性。