H3-3A和H3-3B中的新生变异与神经发育迟缓、畸形特征和脑结构异常有关。

De novo variants in H3-3A and H3-3B are associated with neurodevelopmental delay, dysmorphic features, and structural brain abnormalities.

作者信息

Okur Volkan, Chen Zefu, Vossaert Liesbeth, Peacock Sandra, Rosenfeld Jill, Zhao Lina, Du Haowei, Calamaro Emily, Gerard Amanda, Zhao Sen, Kelsay Jill, Lahr Ashley, Mighton Chloe, Porter Hillary M, Siemon Amy, Silver Josh, Svihovec Shayna, Fong Chin-To, Grant Christina L, Lerner-Ellis Jordan, Manickam Kandamurugu, Madan-Khetarpal Suneeta, McCandless Shawn E, Morel Chantal F, Schaefer G Bradley, Berry-Kravis Elizabeth M, Gates Ryan, Gomez-Ospina Natalia, Qiu Guixing, Zhang Terry Jianguo, Wu Zhihong, Meng Linyan, Liu Pengfei, Scott Daryl A, Lupski James R, Eng Christine M, Wu Nan, Yuan Bo

机构信息

Department of Molecular and Human Genetics, Baylor College of Medicine, Houston, TX, 77030, USA.

Baylor Genetics Laboratories, Houston, TX, 77021, USA.

出版信息

NPJ Genom Med. 2021 Dec 7;6(1):104. doi: 10.1038/s41525-021-00268-8.

DOI:10.1038/s41525-021-00268-8

PMID:34876591

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8651650/

Abstract

The histone H3 variant H3.3, encoded by two genes H3-3A and H3-3B, can replace canonical isoforms H3.1 and H3.2. H3.3 is important in chromatin compaction, early embryonic development, and lineage commitment. The role of H3.3 in somatic cancers has been studied extensively, but its association with a congenital disorder has emerged just recently. Here we report eleven de novo missense variants and one de novo stop-loss variant in H3-3A (n = 6) and H3-3B (n = 6) from Baylor Genetics exome cohort (n = 11) and Matchmaker Exchange (n = 1), of which detailed phenotyping was conducted for 10 individuals (H3-3A = 4 and H3-3B = 6) that showed major phenotypes including global developmental delay, short stature, failure to thrive, dysmorphic facial features, structural brain abnormalities, hypotonia, and visual impairment. Three variant constructs (p.R129H, p.M121I, and p.I52N) showed significant decrease in protein expression, while one variant (p.R41C) accumulated at greater levels than wild-type control. One H3.3 variant construct (p.R129H) was found to have stronger interaction with the chaperone death domain-associated protein 6.

摘要

由两个基因H3-3A和H3-3B编码的组蛋白H3变体H3.3，可以替代经典亚型H3.1和H3.2。H3.3在染色质压缩、早期胚胎发育和细胞谱系定向中起重要作用。H3.3在体细胞癌中的作用已得到广泛研究，但其与一种先天性疾病的关联最近才出现。在此，我们报告了来自贝勒遗传学外显子组队列（n = 11）和匹配交换数据库（n = 1）的H3-3A（n = 6）和H3-3B（n = 6）中的11个新生错义变体和1个新生无义突变回复变体，其中对10名个体（H3-3A = 4，H3-3B = 6）进行了详细的表型分析，这些个体表现出主要表型，包括全面发育迟缓、身材矮小、生长发育不良、面部畸形、结构性脑异常、肌张力减退和视力障碍。三种变体构建体（p.R129H、p.M121I和p.I52N）的蛋白表达显著降低，而一种变体（p.R41C）的积累水平高于野生型对照。发现一种H3.3变体构建体（p.R129H）与伴侣蛋白死亡结构域相关蛋白6有更强的相互作用。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/29c1/8651650/2f3c22fcf0ff/41525_2021_268_Fig1_HTML.jpg

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H3-3A和H3-3B中的新生变异与神经发育迟缓、畸形特征和脑结构异常有关。

De novo variants in H3-3A and H3-3B are associated with neurodevelopmental delay, dysmorphic features, and structural brain abnormalities.

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