Ferritin Heavy Chain, a Repressor of the Human β-Globin Gene That Binds a Conserved Cagtgc Motif, Is Bound to the Repressed β-Globin Promoter In Vivo in K562 Cells and Specifically Binds an Analogous Site in the Mouse βMajor-Globin Promoter.

Broyles, Robert H.; Belegu, Visar; Stewart, Charles A.; Pye, Quentin N.; Roth, Austin C.; Harris, Katharine M.; Floyd, Robert A.; Jani, Klodianna; Trudel, Marie

doi:10.1182/blood.V104.11.1223.1223

Ferritin Heavy Chain, a Repressor of the Human β-Globin Gene That Binds a Conserved Cagtgc Motif, Is Bound to the Repressed β-Globin Promoter In Vivo in K562 Cells and Specifically Binds an Analogous Site in the Mouse β^Major-Globin Promoter.

Robert H. Broyles, Ph.D.,

Robert H. Broyles, Ph.D.

1Department of Biochemistry & Molecular Biology, and University of Oklahoma Cancer Center, University of Oklahoma Health Sciences Center, Oklahoma City, OK, USA

2Free Radical Biology & Aging Research Program, Oklahoma Medical Research Foundation, Oklahoma City, OK, USA

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Visar Belegu, Ph.D.,

Visar Belegu, Ph.D. *

1Department of Biochemistry & Molecular Biology, and University of Oklahoma Cancer Center, University of Oklahoma Health Sciences Center, Oklahoma City, OK, USA

2Free Radical Biology & Aging Research Program, Oklahoma Medical Research Foundation, Oklahoma City, OK, USA

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Charles A. Stewart, Ph.D.,

Charles A. Stewart, Ph.D. *

2Free Radical Biology & Aging Research Program, Oklahoma Medical Research Foundation, Oklahoma City, OK, USA

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Quentin N. Pye, M.S.,

Quentin N. Pye, M.S. *

2Free Radical Biology & Aging Research Program, Oklahoma Medical Research Foundation, Oklahoma City, OK, USA

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Austin C. Roth, B.S.,

Austin C. Roth, B.S. *

2Free Radical Biology & Aging Research Program, Oklahoma Medical Research Foundation, Oklahoma City, OK, USA

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Katharine M. Harris, M.S.,

Katharine M. Harris, M.S. *

2Free Radical Biology & Aging Research Program, Oklahoma Medical Research Foundation, Oklahoma City, OK, USA

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Robert A. Floyd, Ph.D.,

Robert A. Floyd, Ph.D. *

1Department of Biochemistry & Molecular Biology, and University of Oklahoma Cancer Center, University of Oklahoma Health Sciences Center, Oklahoma City, OK, USA

2Free Radical Biology & Aging Research Program, Oklahoma Medical Research Foundation, Oklahoma City, OK, USA

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Klodianna Jani, Ph.D.,

Klodianna Jani, Ph.D. *

3Molecular Genetics & Development, Institut de Recherches Cliniques de Montreal, Montreal, QC, Canada

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Marie Trudel, Ph.D.

3Molecular Genetics & Development, Institut de Recherches Cliniques de Montreal, Montreal, QC, Canada

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Abstract

Ferritin heavy chain (FH), an embryonically-expressed protein in the erythroid lineage, localizes to the nucleus and represses the human adult β-globin promoter in transient expression assays (

Broyles et al.,

PNAS

9145

2001

). Recently, we have performed chromatin immunoprecipitation (ChIP) assays with cross-linked chromatin of K562 cells in which the β-globin gene is repressed, using anti-FH polyclonal antisera. These results strongly indicate that FH occupies the repression site (a CAGTGC motif) in vivo. Binding to this -150 site has been previously demonstrated to be required for β-promoter repression in co-transfections. EMSA assays (competitive gel shifts) have revealed that the mouse β^Major-globin promoter has an analogous CAGTGN motif at -160 bp from the cap site that competes specifically with the human CAGTGC site for FH binding. The mouse β^Minor-globin promoter lacks the -150/-160 CAGTGN motif and, therefore, the FH binding site. Thus, a human FH transgenic mouse, in which the FH gene is driven by a truncated β-promoter lacking the CAGTGN motif, should express human FH in definitive erythroid cells where the FH would be predicted to repress β^Major-globin but not β^Minor-globin. Such a mouse would be predicted to survive but be born with a mild β-thalassemia due to the decreased β^Major/β^Minor ratio in its definitive erythroid cells. Preliminary results from the litters of F1 generation FH-tg mice indicate that such is indeed the case, i.e., that human FH functions as a β^Major-globin repressor in vivo.

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2005, The American Society of Hematology

2004

Ferritin Heavy Chain, a Repressor of the Human β-Globin Gene That Binds a Conserved Cagtgc Motif, Is Bound to the Repressed β-Globin Promoter In Vivo in K562 Cells and Specifically Binds an Analogous Site in the Mouse β^Major-Globin Promoter.

Abstract

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American Society of Hematology

Ferritin Heavy Chain, a Repressor of the Human β-Globin Gene That Binds a Conserved Cagtgc Motif, Is Bound to the Repressed β-Globin Promoter In Vivo in K562 Cells and Specifically Binds an Analogous Site in the Mouse βMajor-Globin Promoter.

Abstract

Author notes

Contents

Data & Figures

Supplemental data

References

Related

Related

Cited By

Email alerts

ASH Publications

American Society of Hematology

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Ferritin Heavy Chain, a Repressor of the Human β-Globin Gene That Binds a Conserved Cagtgc Motif, Is Bound to the Repressed β-Globin Promoter In Vivo in K562 Cells and Specifically Binds an Analogous Site in the Mouse β^Major-Globin Promoter.