The Regulation of γ‐Globin Gene Expression

Abstract

In summary, our analysis indicates that important sequences for the proper initiation of fetal gene transcription in fetal cells are located in the gamma-globin [sequence: see text] promoter. These sequences are sufficient for tissue-specific expression but not induction in K562 cells. Sequences in the gamma-globin IVS-2 and the beta-globin 3' enhancer increase gamma beta and gamma-Neo transcripts when cells containing these genes undergo erythroid maturation as measured by induction with hemin. The mechanism by which these sequences exert their effect remains to be elucidated. [see text] Multiple protein factors bind to both the gamma promoter and the beta 3' enhancer. Both of these regions contain binding sites for the erythroid-specific factor NFE-1 and the octamer binding factor OTF-1. In the gamma upstream region, there may be a competition between OTF-1 binding and NFE-1 binding that affects gamma gene regulation. Our results indicate that the beta 3' enhancer interacts with the gamma gene promoter to permit increased gamma gene expression. We have developed a model for globin gene switching that takes into consideration the effect of cis-acting sequences on globin gene transcription. A similar model of hemoglobin switching in chickens has been proposed by Choi and Engel. In our model, competition for the beta-globin 3' enhancer is involved in stage-specific transcriptional activation of gamma-globin genes in fetal cells and beta-globin genes in adult cells. In adult cells the protein-protein interactions between adult cell-specific factors interacting with the beta-globin promoter and erythroid-specific factors interacting with the beta 3' enhancer would activate transcription of the beta-globin gene. In fetal cells protein-protein interactions between fetal cell-specific factors interacting with the gamma-globin promoter and erythroid-specific factors interacting with the beta 3' enhancer would activate the transcription of the gamma-globin genes.