Stem cell exhaustion due to Runx1 deficiency is prevented by Evi5 activation in leukemogenesis

Stem cell exhaustion due to Runx1 deficiency is prevented by Evi5 activation in leukemogenesis

The RUNX1/AML1 gene is the most frequently mutated gene in human leukemia. Conditional deletion of Runx1 in adult mice results in an increase of hematopoietic stem cells (HSCs), which serve as target cells for leukemia; however, Runx1−/− mice do not develop spontaneous leukemia. Here we show that ma...

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Veröffentlicht in:Blood 2010-02, Vol.115 (8), p.1610-1620
Hauptverfasser: Jacob, Bindya, Osato, Motomi, Yamashita, Namiko, Wang, Chelsia Qiuxia, Taniuchi, Ichiro, Littman, Dan R., Asou, Norio, Ito, Yoshiaki
Format: Artikel
Sprache:eng
Schlagworte:
Animals
Biological and medical sciences
Cell Cycle Proteins
Cell Transformation, Neoplastic - genetics
Cell Transformation, Neoplastic - metabolism
Cell Transformation, Neoplastic - pathology
Core Binding Factor Alpha 2 Subunit
GTPase-Activating Proteins
Hematologic and hematopoietic diseases
Hematopoietic Stem Cells - metabolism
Hematopoietic Stem Cells - pathology
Humans
Leukemia - genetics
Leukemia - metabolism
Leukemia - pathology
Medical sciences
Mice
Mice, Knockout
Myeloid Neoplasia
Nuclear Proteins
Transcription Factors
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Zusammenfassung:The RUNX1/AML1 gene is the most frequently mutated gene in human leukemia. Conditional deletion of Runx1 in adult mice results in an increase of hematopoietic stem cells (HSCs), which serve as target cells for leukemia; however, Runx1−/− mice do not develop spontaneous leukemia. Here we show that maintenance of Runx1−/− HSCs is compromised, progressively resulting in HSC exhaustion. In leukemia development, the stem cell exhaustion was rescued by additional genetic changes. Retroviral insertional mutagenesis revealed Evi5 activation as a cooperating genetic alteration and EVI5 overexpression indeed prevented Runx1−/− HSC exhaustion in mice. Moreover, EVI5 was frequently overexpressed in human RUNX1-related leukemias. These results provide insights into the mechanism for maintenance of pre-leukemic stem cells and may provide a novel direction for therapeutic applications.
ISSN:0006-4971
1528-0020
DOI:10.1182/blood-2009-07-232249