γ-Globin Gene Expression in Chemical Inducer of Dimerization (CID)-dependent Multipotential Cells Established from Human β-Globin Locus Yeast Artificial Chromosome (β-YAC) Transgenic Mice
Identification of trans-acting factors or drugs capable of reactivating γ-globin gene expression is complicated by the lack of suitable cell lines. Human K562 cells co-express ϵ- and γ-globin but not β-globin; transgenic mouse erythroleukemia 585 cells express predominantly human β-globin but also γ...
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| Veröffentlicht in: | The Journal of biological chemistry 2005-11, Vol.280 (44), p.36642-36647 |
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| container_title | The Journal of biological chemistry |
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| creator | Blau, C. Anthony Barbas, Carlos F. Bomhoff, Anna L. Neades, Renee Yan, James Navas, Patrick A. Peterson, Kenneth R. |
| description | Identification of trans-acting factors or drugs capable of reactivating γ-globin gene expression is complicated by the lack of suitable cell lines. Human K562 cells co-express ϵ- and γ-globin but not β-globin; transgenic mouse erythroleukemia 585 cells express predominantly human β-globin but also γ-globin; and transgenic murine GM979 cells co-express human γ-and β-globin. Human β-globin locus yeast artificial chromosome transgenic mice display correct developmental regulation of β-like globin gene expression. We rationalized that cells established from the adult bone marrow of these mice might express exclusively β-globin and therefore could be employed to select or screen inducers of γ-globin expression. A thrombopoietin receptor derivative that brings the proliferative status of primary mouse bone marrow cells under control of a chemical inducer of dimerization was employed to institute and maintain these cell populations. Human β-globin was expressed, but γ-globin was not; a similar expression pattern was observed in cells derived from fetal liver. γ-Globin expression was induced upon exposure to 5-azacytidine, in cells derived from –117 Greek hereditary persistence of fetal hemoglobin human β-globin locus yeast artificial chromosome (β-YAC) mice, showing that the hereditary persistence of fetal hemoglobin (HPFH) phenotype was maintained in these cells or was reactivated by an artificial zinc finger-γ-globin transcription factor and the previously identified fetal globin transactivators fetal Krüppel-like factor (FKLF) and fetal globin-increasing factor (FGIF). These cells may be useful for identifying transcription factors that reactivate γ-globin synthesis or screening γ-globin inducers for the treatment of sickle cell disease or β-thalassemia. |
| doi_str_mv | 10.1074/jbc.M504402200 |
| format | Article |
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Anthony ; Barbas, Carlos F. ; Bomhoff, Anna L. ; Neades, Renee ; Yan, James ; Navas, Patrick A. ; Peterson, Kenneth R.</creator><creatorcontrib>Blau, C. Anthony ; Barbas, Carlos F. ; Bomhoff, Anna L. ; Neades, Renee ; Yan, James ; Navas, Patrick A. ; Peterson, Kenneth R.</creatorcontrib><description>Identification of trans-acting factors or drugs capable of reactivating γ-globin gene expression is complicated by the lack of suitable cell lines. Human K562 cells co-express ϵ- and γ-globin but not β-globin; transgenic mouse erythroleukemia 585 cells express predominantly human β-globin but also γ-globin; and transgenic murine GM979 cells co-express human γ-and β-globin. Human β-globin locus yeast artificial chromosome transgenic mice display correct developmental regulation of β-like globin gene expression. We rationalized that cells established from the adult bone marrow of these mice might express exclusively β-globin and therefore could be employed to select or screen inducers of γ-globin expression. A thrombopoietin receptor derivative that brings the proliferative status of primary mouse bone marrow cells under control of a chemical inducer of dimerization was employed to institute and maintain these cell populations. Human β-globin was expressed, but γ-globin was not; a similar expression pattern was observed in cells derived from fetal liver. γ-Globin expression was induced upon exposure to 5-azacytidine, in cells derived from –117 Greek hereditary persistence of fetal hemoglobin human β-globin locus yeast artificial chromosome (β-YAC) mice, showing that the hereditary persistence of fetal hemoglobin (HPFH) phenotype was maintained in these cells or was reactivated by an artificial zinc finger-γ-globin transcription factor and the previously identified fetal globin transactivators fetal Krüppel-like factor (FKLF) and fetal globin-increasing factor (FGIF). 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Human β-globin locus yeast artificial chromosome transgenic mice display correct developmental regulation of β-like globin gene expression. We rationalized that cells established from the adult bone marrow of these mice might express exclusively β-globin and therefore could be employed to select or screen inducers of γ-globin expression. A thrombopoietin receptor derivative that brings the proliferative status of primary mouse bone marrow cells under control of a chemical inducer of dimerization was employed to institute and maintain these cell populations. Human β-globin was expressed, but γ-globin was not; a similar expression pattern was observed in cells derived from fetal liver. γ-Globin expression was induced upon exposure to 5-azacytidine, in cells derived from –117 Greek hereditary persistence of fetal hemoglobin human β-globin locus yeast artificial chromosome (β-YAC) mice, showing that the hereditary persistence of fetal hemoglobin (HPFH) phenotype was maintained in these cells or was reactivated by an artificial zinc finger-γ-globin transcription factor and the previously identified fetal globin transactivators fetal Krüppel-like factor (FKLF) and fetal globin-increasing factor (FGIF). 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Human K562 cells co-express ϵ- and γ-globin but not β-globin; transgenic mouse erythroleukemia 585 cells express predominantly human β-globin but also γ-globin; and transgenic murine GM979 cells co-express human γ-and β-globin. Human β-globin locus yeast artificial chromosome transgenic mice display correct developmental regulation of β-like globin gene expression. We rationalized that cells established from the adult bone marrow of these mice might express exclusively β-globin and therefore could be employed to select or screen inducers of γ-globin expression. A thrombopoietin receptor derivative that brings the proliferative status of primary mouse bone marrow cells under control of a chemical inducer of dimerization was employed to institute and maintain these cell populations. Human β-globin was expressed, but γ-globin was not; a similar expression pattern was observed in cells derived from fetal liver. γ-Globin expression was induced upon exposure to 5-azacytidine, in cells derived from –117 Greek hereditary persistence of fetal hemoglobin human β-globin locus yeast artificial chromosome (β-YAC) mice, showing that the hereditary persistence of fetal hemoglobin (HPFH) phenotype was maintained in these cells or was reactivated by an artificial zinc finger-γ-globin transcription factor and the previously identified fetal globin transactivators fetal Krüppel-like factor (FKLF) and fetal globin-increasing factor (FGIF). These cells may be useful for identifying transcription factors that reactivate γ-globin synthesis or screening γ-globin inducers for the treatment of sickle cell disease or β-thalassemia.</abstract><pub>Elsevier Inc</pub><doi>10.1074/jbc.M504402200</doi><tpages>6</tpages><oa>free_for_read</oa></addata></record> |
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| title | γ-Globin Gene Expression in Chemical Inducer of Dimerization (CID)-dependent Multipotential Cells Established from Human β-Globin Locus Yeast Artificial Chromosome (β-YAC) Transgenic Mice |
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