DUX4 双同源域结构与 DNA 的复合物的晶体结构。

Crystal Structure of the Double Homeodomain of DUX4 in Complex with DNA.

机构信息

Department of Biochemistry, Molecular Biology, and Biophysics, University of Minnesota, Minneapolis, MN 55455, USA.

Lillehei Heart Institute, University of Minnesota, Minneapolis, MN 55455, USA; Department of Pediatrics, University of Minnesota, Minneapolis, MN 55455, USA; Faculty of Medical Sciences, Goce Delcev University-Stip, Krste Misirkov b.b., 2000 Stip, Republic of Macedonia.

出版信息

Cell Rep. 2018 Dec 11;25(11):2955-2962.e3. doi: 10.1016/j.celrep.2018.11.060.

DOI:10.1016/j.celrep.2018.11.060

PMID:30540931

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6463520/

Abstract

Double homeobox (DUX) transcription factors are unique to eutherian mammals. DUX4 regulates expression of repetitive elements during early embryogenesis, but misexpression of DUX4 causes facioscapulohumeral muscular dystrophy (FSHD) and translocations overexpressing the DUX4 double homeodomain cause B cell leukemia. Here, we report the crystal structure of the tandem homeodomains of DUX4 bound to DNA. The homeodomains bind DNA in a head-to-head fashion, with the linker making anchoring DNA minor-groove interactions and unique protein contacts. Remarkably, despite being tandem duplicates, the DUX4 homeodomains recognize different core sequences. This results from an arginine-to-glutamate mutation, unique to primates, causing alternative positioning of a key arginine side chain in the recognition helix. Mutational studies demonstrate that this primate-specific change is responsible for the divergence in sequence recognition that likely drove coevolution of embryonically regulated repeats in primates. Our work provides a framework for understanding the endogenous function of DUX4 and its role in FSHD and cancer.

摘要

双同源盒 (DUX) 转录因子是真兽类哺乳动物所特有的。DUX4 在早期胚胎发生过程中调节重复元件的表达，但 DUX4 的异常表达会导致面肩肱型肌营养不良症 (FSHD)，而过度表达 DUX4 双同源结构域的易位则会导致 B 细胞白血病。在这里，我们报告了 DUX4 串联同源结构域与 DNA 结合的晶体结构。同源结构域以头对头的方式结合 DNA，连接子使 DNA 小沟相互作用和独特的蛋白质接触得以稳定。值得注意的是，尽管是串联重复，但 DUX4 同源结构域识别不同的核心序列。这是由于一个精氨酸到谷氨酸的突变，这种突变是灵长类动物所特有的，导致识别螺旋中一个关键精氨酸侧链的位置发生改变。突变研究表明，这种灵长类动物特有的变化是导致序列识别差异的原因，这可能推动了灵长类动物中胚胎调控重复序列的共同进化。我们的工作为理解 DUX4 的内源性功能及其在 FSHD 和癌症中的作用提供了一个框架。

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Muscle pathology from stochastic low level DUX4 expression in an FSHD mouse model.面肩肱型肌营养不良（FSHD）小鼠模型中由随机低水平DUX4表达引起的肌肉病理学

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