Jennifer L. Moody scite author profile

Members of the transforming growth factor (TGF-) superfamily of growth factors have been shown to regulate the in vitro proliferation and maintenance of hematopoietic stem cells (HSCs). Working at a common level of convergence for all TGF-superfamily signals, Smad4 is key in orchestrating these effects. The role of Smad4 in HSC function has remained elusive because of the early embryonic lethality of the conventional knockout. We clarify its role by using an inducible model of Smad4 deletion coupled with transplantation experiments. Remarkably, systemic induction of Smad4 deletion through activation of MxCre was incompatible with survival 4 wk after induction because of anemia and histopathological changes in the colonic mucosa. Isolation of Smad4 deletion to the hematopoietic system via several transplantation approaches demonstrated a role for Smad4 in the maintenance of HSC self-renewal and reconstituting capacity, leaving homing potential, viability, and differentiation intact. Furthermore, the observed down-regulation of notch1 and c-myc in Smad4 −/− primitive cells places Smad4 within a network of genes involved in the regulation HSC renewal.

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Smad4 is critical for self-renewal of hematopoietic stem cells

Karlsson

Blank

Moody

et al. 2007

112

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Members of the transforming growth factor β (TGF-β) superfamily of growth factors have been shown to regulate the in vitro proliferation and maintenance of hematopoietic stem cells (HSCs). Working at a common level of convergence for all TGF-β superfamily signals, Smad4 is key in orchestrating these effects. The role of Smad4 in HSC function has remained elusive because of the early embryonic lethality of the conventional knockout. We clarify its role by using an inducible model of Smad4 deletion coupled with transplantation experiments. Remarkably, systemic induction of Smad4 deletion through activation of MxCre was incompatible with survival 4 wk after induction because of anemia and histopathological changes in the colonic mucosa. Isolation of Smad4 deletion to the hematopoietic system via several transplantation approaches demonstrated a role for Smad4 in the maintenance of HSC self-renewal and reconstituting capacity, leaving homing potential, viability, and differentiation intact. Furthermore, the observed down-regulation of notch1 and c-myc in Smad4−/− primitive cells places Smad4 within a network of genes involved in the regulation HSC renewal.

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A Road Map Toward Defining the Role of Smad Signaling in Hematopoietic Stem Cells

Utsugisawa

Moody

Aspling

et al. 2006

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Consensus Guidance for Banking and Supply of Human Embryonic Stem Cell Lines for Research Purposes

Andrews¹,

Arias-Dı́az²,

Auerbach³

et al. 2009

Stem Cell Rev and Rep

135

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Jennifer L. Moody

Smad7 promotes self-renewal of hematopoietic stem cells

Smad4 is critical for self-renewal of hematopoietic stem cells

Smad4 is critical for self-renewal of hematopoietic stem cells

A Road Map Toward Defining the Role of Smad Signaling in Hematopoietic Stem Cells

Consensus Guidance for Banking and Supply of Human Embryonic Stem Cell Lines for Research Purposes

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