A 2.9 Kb deletion of 5′HS3 (Δ5′HS3) or a 234 bp deletion of the 5′HS3 core (Δ5′HS3c) in a 213 Kb human β-globin locus yeast artificial chromosome (β-YAC) abrogate ε-globin gene expression during primitive erythropoiesis in β-YAC transgenic mice, suggesting that HS sequences of the LCR are involved directly in ε-globin gene activation. The reduction of ε-globin gene transcription in Δ5′HS3 or Δ5′HS3c β-YAC transgenics can be explained by two hypotheses. The first is site-specificity. The interaction between the LCR and the ε-globin gene promoter involves specific sequences of 5′HS3 and specific sequences of the ε-globin gene promoter. When 5′HS3 or its core is deleted, these interactions do not take place and ε-globin gene transcription is diminished. The second hypothesis is change in conformation of the LCR. Normally, in the embryonic stage, the LCR achieves a three-dimensional conformation that favors interaction with the first gene in the complex, i.e., the ε-globin gene. When 5′HS3 is deleted, an alternate conformation is assumed that decreases the chance that there will be an interaction between the LCR and the ε-globin gene. However, the LCR interacts with the next gene in order, the γ-globin gene. In Δ5′HS3c β-YAC mice, γ-globin gene expression is normal during primitive erythropoiesis, but is extinguished in the fetal stage of definitive erythropoiesis. These data suggest that a conformational change occurs in the Δ5′HS3c LCR during the switch from embryonic to definitive erythropoiesis, from one that supports γ-globin gene expression to one that does not. Alternately, the embryonic trans-acting environment may allow the mutant LCR to interact with and activate the γ-globin genes, but the fetal trans-acting environment may not support this interaction in the absence of the 5′HS3 core. To distinguish between these possibilities, β-YAC lines were produced in which the ε-globin gene was replaced with a second marked β-globin gene (βm), coupled to either an intact LCR, a 2.9 Kb 5′HS3 deletion or a 234 bp 5′HS3 core deletion. Δ5′HS3c Δε::βm β-YAC mice expressed βm-globin throughout development beginning at day 10 in the yolk sac. γ-globin was expressed in the embryonic yolk sac, but not in the fetal liver. Some wild-type β-globin was expressed in addition to βm-globin in adult mice. The γ-globin phenotype is consistent with published data on Δ5′HS3c β-YAC mice. Although ε-globin was not expressed in Δ5′HS3c β-YAC mice, βm-globin was expressed in Δ5′HS3c Δε::βm β-YAC embryos, demonstrating that the 5′HS3 core was necessary for ε-globin expression during embryonic erythropoiesis, but not for βm-globin expression. These data support a site specificity model of LCR HS-globin gene interaction. In addition, nuclear ligation experiments provided evidence for a specific physical interaction between 5′HS3 and the γ-globin promoter during fetal definitive erythropoiesis, further supporting a site specificity model.
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