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分析鼠基因互补系统中致病 GATA1 突变。

Analysis of disease-causing GATA1 mutations in murine gene complementation systems.

机构信息

Division of Hematology, The Children's Hospital of Philadelphia, Philadelphia, PA 19104-4318, USA.

出版信息

Blood. 2013 Jun 27;121(26):5218-27. doi: 10.1182/blood-2013-03-488080. Epub 2013 May 23.

DOI:10.1182/blood-2013-03-488080
PMID:23704091
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3695365/
Abstract

Missense mutations in transcription factor GATA1 underlie a spectrum of congenital red blood cell and platelet disorders. We investigated how these alterations cause distinct clinical phenotypes by combining structural, biochemical, and genomic approaches with gene complementation systems that examine GATA1 function in biologically relevant cellular contexts. Substitutions that disrupt FOG1 cofactor binding impair both gene activation and repression and are associated with pronounced clinical phenotypes. Moreover, clinical severity correlates with the degree of FOG1 disruption. Surprisingly, 2 mutations shown to impair DNA binding of GATA1 in vitro did not measurably affect in vivo target gene occupancy. Rather, one of these disrupted binding to the TAL1 complex, implicating it in diseases caused by GATA1 mutations. Diminished TAL1 complex recruitment mainly impairs transcriptional activation and is linked to relatively mild disease. Notably, different substitutions at the same amino acid can selectively inhibit TAL1 complex or FOG1 binding, producing distinct cellular and clinical phenotypes. The structure-function relationships elucidated here were not predicted by prior in vitro or computational studies. Thus, our findings uncover novel disease mechanisms underlying GATA1 mutations and highlight the power of gene complementation assays for elucidating the molecular basis of genetic diseases.

摘要

转录因子 GATA1 的错义突变是一系列先天性红细胞和血小板疾病的基础。我们通过结合结构、生化和基因组方法以及基因互补系统,研究了这些改变如何在生物学相关的细胞环境中导致不同的临床表型,从而检查 GATA1 的功能。破坏 FOG1 共因子结合的取代物既会损害基因激活又会损害基因抑制,并且与明显的临床表型相关。此外,临床严重程度与 FOG1 破坏的程度相关。令人惊讶的是,两种被证明在体外损害 GATA1 DNA 结合的突变实际上并没有对体内靶基因占据产生可测量的影响。相反,其中一种突变破坏了与 TAL1 复合物的结合,表明它与 GATA1 突变引起的疾病有关。TAL1 复合物募集的减少主要会损害转录激活,并且与相对较轻的疾病有关。值得注意的是,同一氨基酸上的不同取代可以选择性地抑制 TAL1 复合物或 FOG1 结合,从而产生不同的细胞和临床表型。这里阐明的结构-功能关系不能通过先前的体外或计算研究来预测。因此,我们的发现揭示了 GATA1 突变的新疾病机制,并强调了基因互补测定在阐明遗传疾病分子基础方面的强大功能。

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A novel GATA1 mutation (Stop414Arg) in a family with the rare X-linked blood group Lu(a-b-) phenotype and mild macrothrombocytic thrombocytopenia.一个患有罕见的X连锁血型Lu(a-b-)表型和轻度大血小板性血小板减少症的家族中发现一种新的GATA1突变(Stop414Arg)
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Genome-wide ChIP-Seq reveals a dramatic shift in the binding of the transcription factor erythroid Kruppel-like factor during erythrocyte differentiation.全基因组 ChIP-Seq 揭示了转录因子红细胞 Kruppel 样因子在红细胞分化过程中结合的显著变化。
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