DNA methylation in hereditary persistence of fetal hemoglobin (HPFH-2)

Abstract

Recent studies show that the region of DNA brought into close proximity to the fetal γ-globin genes in deletional forms of hereditary persistence of fetal hemoglobin (HPFH) is selectively hypomethylated (and presumably active) in normal erythroid tissue. This region is normally located approximately 100 kilobases (kb) 3′ to the fetal genes. The continued expression of fetal hemoglobin in adult life in these forms of HPFH has been ascribed to the effect of this erythroid-specific region in altering local chromosomal structure and allowing transcription. Because transcriptional activity is often associated with hypomethylation, we have examined the methylation status of the γ-globin genes and the truncated ψβ gene on the HPFH chromosome to determine whether juxtaposition of this erythroid-specific region results in a generalized hypomethylation of the globin gene region upstream of the deletion breakpoint. Genomic DNA purified from nucleated red blood cells (nRBC) from a patient with HPFH-2/β° thalassemia was digested with Msp I or Hpa II, and the methylation pattern determined on the HPFH chromosome by using secondary cleavage with restriction enzymes which span the deletion breakpoint. These studies show that in nRBC the HPFH-2 chromosome is hypomethylated in the 3′-juxtaposed region (3′JR) and in the region of the γ-globin genes. In contrast, Msp I sites near the truncated ψβ-globin gene remain methylated, suggesting that only a subset of CpG sites upstream from the 3′JR become hypomethylated in HPFH-2. This subset of sites corresponds to those which are normally hypomethylated when fetal genes are active. The continued high level of fetal globin expression is, therefore, not associated with a generalized hypomethylation upstream from the deletion junction.