Bristol Institute for Transfusion Sciences, NHSBT, Bristol, UK.
Curr Opin Hematol. 2012 Nov;19(6):486-93. doi: 10.1097/MOH.0b013e328358f92e.
This review describes the genetics of unusual blood group phenotypes, particularly those with altered expression of Lutheran antigens, and how this area of study has informed our understanding of erythropoiesis in general and haemoglobin switching in particular.
Mutations in erythroid transcription factors GATA1 (GATA1 binding protein 1) and KLF1 (Kruppel-like factor 1) cause benign and disease phenotypes in humans [X-linked Lu(a-b-) phenotype, In(Lu) blood group phenotype, hereditary persistence of foetal haemoglobin, borderline HbA(2), and congenital dyserythropoietic anaemia (CDA)]. These studies explain the occurrence of rare blood group phenotypes with simultaneous altered expression of antigens from several blood group systems and illuminate the role of KLF1 in gamma and delta globin gene regulation.
The study of rare blood group phenotypes is a potent tool for discovery of mutations in human genes. Elucidation of the molecular basis of the rare In(Lu) phenotype revealed the first mutations in human KLF1. Subsequently, numerous additional mutations have been described, one of which causes a rare form of CDA. Analysis of the X-linked Lu(a-b-) phenotype revealed a mutation in the C-terminal domain of human GATA1. The apparent sensitivity of the Lutheran glycoprotein to alterations in GATA1 and KLF1 activity suggest that it could be a useful biomarker of erythroid transcription factor mutation.
本文描述了罕见血型表型的遗传学特征,特别是那些改变了 Lutheran 抗原表达的表型,以及这一研究领域如何帮助我们深入了解红细胞生成,特别是血红蛋白转换。
红细胞转录因子 GATA1(GATA1 结合蛋白 1)和 KLF1(Kruppel 样因子 1)的突变导致人类出现良性和疾病表型[X 连锁 Lu(a-b-)表型、In(Lu)血型表型、遗传性胎儿血红蛋白持续存在、界值 HbA(2)和先天性成红细胞性贫血(CDA)]。这些研究解释了罕见血型表型同时改变几个血型系统抗原表达的发生机制,并阐明了 KLF1 在γ和δ珠蛋白基因调控中的作用。
罕见血型表型的研究是发现人类基因突变的有力工具。阐明罕见 In(Lu)表型的分子基础揭示了人类 KLF1 的第一个突变。随后,描述了许多其他突变,其中一个导致罕见形式的 CDA。对 X 连锁 Lu(a-b-)表型的分析揭示了人类 GATA1 C 末端结构域的突变。Lutheran 糖蛋白对 GATA1 和 KLF1 活性改变的明显敏感性表明,它可能是一种有用的红细胞转录因子突变的生物标志物。
