Abstract 3878

A seminal feature of long-term hematopoietic stem cells (HSC) is quiescence. We recently described a mutation of the transcription factor c-Myb, M303V that leads to thrombocytosis and a ten-fold increase HSC number. Here we report that increased HSC number in c-MybM303V mice results from increased cycling of long-term and short-term HSC. Analysis of cell cycle genes revealed a decrease in the cell cycle inhibitor p57kip2 (Cdkn1c), a gene expressed in long-term but not short-term HSC. Mechanistic studies reveal that c-Myb binds and activates the p57 promoter and this capacity is diminished by the c-MybM303V mutation. Restoration of p57 in c-MybM303V HSC prevents thrombocytosis and shRNA mediated reduction of p57 in HSC followed by transplantation leads to enhanced numbers of HSC. These data highlight c-Myb and p57 as key regulators of HSC quiescence and differentiation.

Disclosures:

Cooke:Novartis: Employment. Sutton:Novartis: Employment. Parker:Novartis: Employment.

Topics:
cell cycle quiescence, hematopoietic stem cells, proto-oncogene proteins c-myb, thrombocytosis, transcription factor, transplantation, binding (molecular function), mice

Author notes

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Asterisk with author names denotes non-ASH members.

© 2010 by The American Society of Hematology
2010
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