Developmental- and differentiation-specific patterns of human γ- and β-globin promoter DNA methylation

Abstract

AbstractThe mechanisms underlying the human fetal-to-adult β-globin gene switch remain to be determined. While there is substantial experimental evidence to suggest that promoter DNA methylation is involved in this process, most data come from studies in nonhuman systems. We have evaluated human γ- and β-globin promoter methylation in primary human fetal liver (FL) and adult bone marrow (ABM) erythroid cells. Our results show that, in general, promoter methylation and gene expression are inversely related. However, CpGs at −162 of the γ promoter and −126 of the β promoter are hypomethylated in ABM and FL, respectively. We also studied γ-globin promoter methylation during in vitro differentiation of erythroid cells. The γ promoters are initially hypermethylated in CD34+ cells. The upstream γ promoter CpGs become hypomethylated during the preerythroid phase of differentiation and are then remethylated later, during erythropoiesis. The period of promoter hypomethylation correlates with transient γ-globin gene expression and may explain the previously observed fetal hemoglobin production that occurs during early adult erythropoiesis. These results provide the first comprehensive survey of developmental changes in human γ- and β-globin promoter methylation and support the hypothesis that promoter methylation plays a role in human β-globin locus gene switching.