Mutation of a barrier insulator in the human ankyrin-1 gene is associated with hereditary spherocytosis
Patrick G. Gallagher, … , Lisa J. Garrett, David M. Bodine
Patrick G. Gallagher, … , Lisa J. Garrett, David M. Bodine
Published November 22, 2010
Citation Information: J Clin Invest. 2010;120(12):4453-4465. https://doi.org/10.1172/JCI42240.
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Research Article

Mutation of a barrier insulator in the human ankyrin-1 gene is associated with hereditary spherocytosis

Abstract

Defects of the ankyrin-1 gene are the most common cause in humans of hereditary spherocytosis, an inherited anemia that affects patients of all ethnic groups. In some kindreds, linked –108/–153 nucleotide substitutions have been found in the upstream region of the ankyrin gene promoter that is active in erythroid cells. In vivo, the ankyrin erythroid promoter and its upstream region direct position-independent, uniform expression, a property of barrier insulators. Using human erythroid cell lines and primary cells and transgenic mice, here we have demonstrated that a region upstream of the erythroid promoter is a barrier insulator in vivo in erythroid cells. The region exhibited both functional and structural characteristics of a barrier, including prevention of gene silencing in an in vivo functional assay, appropriate chromatin configuration, and occupancy by barrier-associated proteins. Fragments with the –108/–153 spherocytosis-associated mutations failed to function as barrier insulators in vivo and demonstrated perturbations in barrier-associated chromatin configuration. In transgenic mice, flanking a mutant –108/–153 ankyrin gene promoter with the well-characterized chicken HS4 barrier insulator restored position-independent, uniform expression at levels comparable to wild-type. These data indicate that an upstream region of the ankyrin-1 erythroid promoter acts as a barrier insulator and identify disruption of the barrier element as a potential pathogenetic mechanism of human disease.

Authors

Patrick G. Gallagher, Laurie A. Steiner, Robert I. Liem, Ashley N. Owen, Amanda P. Cline, Nancy E. Seidel, Lisa J. Garrett, David M. Bodine

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Figure 5

Quantitative ChIP analyses of barrier-associated protein occupancy in the ankyrin-1 5′HS region.

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Quantitative ChIP analyses of barrier-associated protein occupancy in th...
Quantitative ChIP studies were performed to examine barrier-associated protein occupancy in the ankyrin 5′HS region using K562 cell (left) and primary erythroid cell (right) chromatin. (A) ChIP analyses of the ankyrin 5′HS region using antibodies against USF1 and USF2. HS2 of the locus control region of the human β-globin locus was included as a positive control (93), and a region of the hsSat2 (94) was included as a negative control. (B) Methyltransferases. ChIP analyses of the ankyrin 5′HS region using antibodies against PRMT1 and PRMT4. A region of the CITED2 gene promoter (95) was included as a positive control, and a region of the hsSat2 was included as a negative control. (C) Histone acetylases and chromatin remodeling proteins. ChIP analyses of the ankyrin 5′HS region using antibodies against CBP, PCAF, and SMARCA4/BRG1. A region of the IL4 gene promoter was included as a positive control (+C) for CBP, PCAF, and SMARCA4 (96), and a region of the hsSat2 was included as a negative control (–C) for all 3 antibodies. (D) The region and primers utilized in ChIP.