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人类 EKLF 第二个锌指突变降低启动子亲和力,但导致良性和疾病表型。

Mutations in the second zinc finger of human EKLF reduce promoter affinity but give rise to benign and disease phenotypes.

机构信息

Bristol Institute for Transfusion Sciences, National Health Service Blood and Transplant, Bristol, UK.

出版信息

Blood. 2011 Sep 15;118(11):3137-45. doi: 10.1182/blood-2011-04-349985. Epub 2011 Jul 21.

DOI:10.1182/blood-2011-04-349985
PMID:21778342
Abstract

Mutations in the human erythroid Krüppel-like factor (EKLF) can lead to either anemia or the benign InLu phenotype. To elucidate the relationship between these mutations and the differing phenotypes, we prepared recombinant forms of wild-type and 5 mutant EKLF proteins and quantitated their binding affinity to a range of EKLF-regulated genes. Missense mutants (R328H, R328L, and R331G) from persons with InLu phenotype did not bind DNA. Hence, as with the heterozygous loss of function nonsense (L127X, S270X, and K292X) and frameshift (P190Lfs and R319Efs) EKLF mutations, monoallelic loss of EKLF does not result in haploinsufficiency at all loci. In contrast, K332Q has a slightly reduced DNA binding affinity (∼ 2-fold) for all promoters examined but exhibits a phenotype only in a compound heterozygote with a nonfunctional allele. E325K also has a reduced, but significant, binding affinity, particularly for the β-globin gene but results in a disease phenotype even with the wild-type allele expressed, although not as a classic dominant-negative mutant. E325K protein may therefore actively interfere with EKLF-dependent processes by destabilizing transcription complexes, providing a rational explanation for the severity of the disease phenotype. Our study highlights the critical role of residues within the second EKLF zinc finger domain.

摘要

人类红系 Krüppel 样因子 (EKLF) 的突变可导致贫血或良性 InLu 表型。为了阐明这些突变与不同表型之间的关系,我们制备了野生型和 5 种突变型 EKLF 蛋白的重组形式,并定量分析了它们与一系列 EKLF 调节基因的结合亲和力。来自 InLu 表型个体的错义突变(R328H、R328L 和 R331G)不能与 DNA 结合。因此,与杂合功能丧失无义(L127X、S270X 和 K292X)和移码(P190Lfs 和 R319Efs)EKLF 突变一样,单等位基因缺失 EKLF 并不会导致所有基因座的杂合不足。相比之下,K332Q 对所有检测的启动子的 DNA 结合亲和力略有降低(约 2 倍),但仅在与无功能等位基因复合杂合的情况下表现出表型。E325K 也具有降低但显著的结合亲和力,特别是对于β-珠蛋白基因,但即使表达野生型等位基因,也会导致疾病表型,尽管不是经典的显性负突变体。E325K 蛋白可能通过破坏转录复合物,积极干扰 EKLF 依赖性过程,为疾病表型的严重程度提供了合理的解释。我们的研究强调了第二 EKLF 锌指结构域内残基的关键作用。

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