Impact of transcription factors KLF1 and GATA1 on red blood cell antigen expression: a review.

Q4 Medicine
Immunohematology Pub Date : 2024-05-13 eCollection Date: 2024-04-01 DOI:10.2478/immunohematology-2024-002
Genghis H Lopez, Mia E Sarri, Robert L Flower, Catherine A Hyland
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引用次数: 0

Abstract

KLF transcription factor 1 (KLF1) and GATA binding protein 1 (GATA1) are transcription factors (TFs) that initiate and regulate transcription of the genes involved in erythropoiesis. These TFs possess DNA-binding domains that recognize specific nucleotide sequences in genes, to which they bind and regulate transcription. Variants in the genes that encode either KLF1 or GATA1 can result in a range of hematologic phenotypes-from benign to severe forms of thrombocytopenia and anemia; they can also weaken the expression of blood group antigens. The Lutheran (LU) blood group system is susceptible to TF gene variations, particularly KLF1 variants. Individuals heterozygous for KLF1 gene variants show reduced Lutheran antigens on red blood cells that are not usually detected by routine hemagglutination methods. This reduced antigen expression is referred to as the In(Lu) phenotype. For accurate blood typing, it is important to distinguish between the In(Lu) phenotype, which has very weak antigen expression, and the true Lunull phenotype, which has no antigen expression. The International Society of Blood Transfusion blood group allele database registers KLF1 and GATA1 variants associated with modified Lutheran expression. Here, we review KLF1 and recent novel gene variants defined through investigating blood group phenotype and genotype discrepancies or, for one report, investigating cases with unexplained chronic anemia. In addition, we include a review of the GATA1 TF, including a case report describing the second GATA1 variant associated with a serologic Lu(a-b-) phenotype. Finally, we review both past and recent reports on variations in the DNA sequence motifs on the blood group genes that disrupt the binding of the GATA1 TF and either remove or reduce erythroid antigen expression. This review highlights the diversity and complexity of the transcription process itself and the need to consider these factors as an added component for accurate blood group phenotyping.

转录因子 KLF1 和 GATA1 对红细胞抗原表达的影响:综述。
KLF转录因子1(KLF1)和GATA结合蛋白1(GATA1)是转录因子(TF),它们启动并调节参与红细胞生成的基因的转录。这些转录因子具有 DNA 结合域,可识别基因中的特定核苷酸序列,并与之结合和调控转录。编码 KLF1 或 GATA1 的基因变异可导致一系列血液学表型--从良性到严重的血小板减少症和贫血症;它们还可削弱血型抗原的表达。路德(LU)血型系统易受 TF 基因变异,尤其是 KLF1 变异的影响。KLF1 基因变异的杂合子个体红细胞上的路德抗原会减少,常规血凝法通常检测不到。这种抗原表达的减少被称为 In(Lu) 表型。为了准确地进行血型鉴定,必须区分抗原表达非常弱的 In(Lu) 表型和没有抗原表达的真正路德表型。国际输血协会血型等位基因数据库登记了与路德表达改变相关的 KLF1 和 GATA1 变体。在此,我们回顾了通过调查血型表型和基因型差异或调查不明原因慢性贫血病例而确定的 KLF1 和最近的新型基因变异。此外,我们还对 GATA1 TF 进行了综述,包括一份病例报告,该报告描述了与血清学 Lu(a-b-) 表型相关的第二个 GATA1 变异。最后,我们回顾了过去和近期有关血型基因 DNA 序列基序变异的报道,这些变异会破坏 GATA1 TF 的结合,并消除或减少红细胞抗原的表达。这篇综述强调了转录过程本身的多样性和复杂性,以及将这些因素作为准确血型表型的附加组成部分的必要性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Immunohematology
Immunohematology Medicine-Medicine (all)
CiteScore
1.30
自引率
0.00%
发文量
18
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