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人类GATA2突变与血液系统疾病:通往发病机制的途径有多少?

Human GATA2 mutations and hematologic disease: how many paths to pathogenesis?

作者信息

Bresnick Emery H, Jung Mabel M, Katsumura Koichi R

机构信息

Wisconsin Blood Cancer Research Institute, Department of Cell and Regenerative Biology, Carbone Cancer Center, University of Wisconsin School of Medicine and Public Health, Madison, WI.

出版信息

Blood Adv. 2020 Sep 22;4(18):4584-4592. doi: 10.1182/bloodadvances.2020002953.

DOI:10.1182/bloodadvances.2020002953
PMID:32960960
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7509867/
Abstract

The surge of human genetic information, enabled by increasingly facile and economically feasible genomic technologies, has accelerated discoveries on the relationship of germline genetic variation to hematologic diseases. For example, germline variation in GATA2, encoding a vital transcriptional regulator of multilineage hematopoiesis, creates a predisposition to bone marrow failure and acute myeloid leukemia termed GATA2 deficiency syndrome. More than 300 GATA2 variants representing missense, truncating, and noncoding enhancer mutations have been documented. Although these variants can diminish GATA2 expression and/or function, the functional ramifications of many variants are unknown. Studies using genetic rescue and knockin mouse systems have established that GATA2 mutations differentially affect molecular processes in distinct target genes and within a single target cell. Considering that target genes for a transcription factor can differ in sensitivity to altered levels of the factor, and transcriptional mechanisms are often cell type specific, the context-dependent consequences of GATA2 mutations in experimental systems portend the complex phenotypes and interindividual variation of GATA2 deficiency syndrome. This review documents GATA2 human genetics and the state of efforts to traverse from physiological insights to pathogenic mechanisms.

摘要

随着基因组技术日益简便且经济可行,人类遗传信息激增,这加速了对种系基因变异与血液系统疾病关系的发现。例如,编码多谱系造血重要转录调节因子的GATA2基因种系变异,会导致骨髓衰竭和急性髓系白血病的易感性增加,即GATA2缺陷综合征。已记录了300多种代表错义、截短和非编码增强子突变的GATA2变体。尽管这些变体可降低GATA2的表达和/或功能,但许多变体的功能影响尚不清楚。使用基因拯救和基因敲入小鼠系统的研究表明,GATA2突变对不同靶基因和单个靶细胞内的分子过程有不同影响。考虑到转录因子的靶基因对该因子水平改变的敏感性可能不同,且转录机制通常具有细胞类型特异性,实验系统中GATA2突变的背景依赖性后果预示着GATA2缺陷综合征的复杂表型和个体间差异。本综述记录了GATA2的人类遗传学以及从生理见解到致病机制的研究进展。

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