OTUD5 通过连接特异性去泛素化作用定义了一条对基因组变异不宽容的胚胎途径。

Linkage-specific deubiquitylation by OTUD5 defines an embryonic pathway intolerant to genomic variation.

机构信息

Metabolic, Cardiovascular and Inflammatory Disease Genomics Branch, National Human Genome Research Institute, National Institutes of Health, Bethesda, MD 20892, USA.

Stem Cell Biochemistry Unit, National Institute of Dental and Craniofacial Research, National Institutes of Health, Bethesda, MD 20892, USA.

出版信息

Sci Adv. 2021 Jan 20;7(4). doi: 10.1126/sciadv.abe2116. Print 2021 Jan.

DOI:10.1126/sciadv.abe2116

PMID:33523931

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7817106/

Abstract

Reversible modification of proteins with linkage-specific ubiquitin chains is critical for intracellular signaling. Information on physiological roles and underlying mechanisms of particular ubiquitin linkages during human development are limited. Here, relying on genomic constraint scores, we identify 10 patients with multiple congenital anomalies caused by hemizygous variants in , encoding a K48/K63 linkage-specific deubiquitylase. By studying these mutations, we find that OTUD5 controls neuroectodermal differentiation through cleaving K48-linked ubiquitin chains to counteract degradation of select chromatin regulators (e.g., ARID1A/B, histone deacetylase 2, and HCF1), mutations of which underlie diseases that exhibit phenotypic overlap with patients. Loss of OTUD5 during differentiation leads to less accessible chromatin at neuroectodermal enhancers and aberrant gene expression. Our study describes a previously unidentified disorder we name LINKED (LINKage-specific deubiquitylation deficiency-induced Embryonic Defects) syndrome and reveals linkage-specific ubiquitin cleavage from chromatin remodelers as an essential signaling mode that coordinates chromatin remodeling during embryogenesis.

摘要

蛋白质与具有连接特异性的泛素链的可逆修饰对于细胞内信号转导至关重要。在人类发育过程中，特定泛素连接的生理作用和潜在机制的信息有限。在这里，我们依赖于基因组约束评分，鉴定了 10 名患有多种先天性异常的患者，这些患者的半合子变体导致编码 K48/K63 连接特异性去泛素酶的基因发生突变。通过研究这些突变，我们发现 OTUD5 通过切割 K48 连接的泛素链来控制神经外胚层分化，以抵消特定染色质调节剂（例如 ARID1A/B、组蛋白去乙酰化酶 2 和 HCF1）的降解，这些调节剂的突变是与患者具有表型重叠的疾病的基础。分化过程中 OTUD5 的缺失导致神经外胚层增强子处的染色质不易接近和异常基因表达。我们的研究描述了一种以前未被识别的疾病，我们将其命名为 LINKED（LINKage-specific deubiquitylation deficiency-induced Embryonic Defects）综合征，并揭示了来自染色质重塑因子的连接特异性泛素切割作为协调胚胎发生过程中染色质重塑的重要信号模式。

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OTUD5 通过连接特异性去泛素化作用定义了一条对基因组变异不宽容的胚胎途径。

Linkage-specific deubiquitylation by OTUD5 defines an embryonic pathway intolerant to genomic variation.

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