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Regulation of Hematopoietic Stem Cell Quiescence by Ku70

Authors :
Stanton L. Gerson
Min Liu
Zhengqi Wang
Yulan Qing
Kevin D. Bunting
Source :
Blood. 114:3613-3613
Publication Year :
2009
Publisher :
American Society of Hematology, 2009.

Abstract

Abstract 3613 Poster Board III-549 Genomic integrity is essential for organism development and longevity, and in large part is mediated by DNA repair proficiency. Non-homologous end-joining (NHEJ) is essential for DNA double-strand break repair in all cells and for VDJ processing in B and T cells. NHEJ is also critical for hematopoietic stem cell (HSC) maintenance and function, but the mechanisms by which the NHEJ pathway regulates HSC function are not known. Ku70 is a key component of NHEJ; Ku70-deficient mice are hypersensitive to radiation and show a leaky SCID phenotype. Previously we have shown that HSC from Ku70-deficient mice are defective in repopulation, self-renewal and competitive repopulation. Also, mice defective in other NHEJ components, Ku80 or ligase 4, display impaired HSC function and reduced HSC numbers during aging. Here we used Ku70-deficient mice to investigate the role of the NHEJ pathway in HSC function. Ku70-deficient mice show comparable HSC (Sca1+,c-Kit+,Lin-) frequency to Wild-type (WT) mice, and HSCs from Ku70-deficient mice display similar apoptosis rates as HSCs from WT mice. SKL cells from both Ku70-deficient and WT mice proliferate at similar rates in vitro in the presence of IL3, SCF, Flt3-L and Tpo. However, a greater percentage of HSCs from Ku70-deficient mice are actively cycling, and fewer are quiescent than those obtained from WT mice. Further, recipients of Ku70-deficient BM are more sensitive to 5-FU treatment than those receiving WT BM. In addition, WT HSCs efficiently replace endogenous Ku70-deficient HSCs when WT BM cells are transplanted into Ku70-deficient mice in the absence of any conditioning. Together, our data indicate that loss of quiescence in Ku70-deficient HSCs correlates with dramatic defects observed in repopulation, self-renewal and competitive repopulation. These results suggest that the NHEJ pathway, either through the processes of DNA repair and genome maintenance, or through a stress response signaling pathway, is critical for maintaining HSCs in a quiescent state, avoiding age-related physiological stress, and allowing functional stem cell transplantation. Disclosures: No relevant conflicts of interest to declare.

Details

ISSN :
15280020 and 00064971
Volume :
114
Database :
OpenAIRE
Journal :
Blood
Accession number :
edsair.doi...........37fb6ab6dc15da86e5a34c31900ad444