Stem cells from a variety of tissues have recently been shown to be capable of differentiating into cells characteristic of a separate tissue, apparently in response to microenvironmental signals. This is hierarchical plasticity. We have shown that both human and murine neurosphere cells with potential for differentiating into neurons, oligodendrocytes, and astrocytes can produce hematopoietic stem cells when engrafted into fetal sheep or murine day 3.5 blastocysts, respectively. We have also demonstrated an alternative form of stem cell plasticity: functional plasticity at different points in cell cycle transit and at different phases of a circadian rhythm. We have shown that long-term engraftment varies reversibly as primitive murine stem cells (lineage-negative rhodamine(low) Hoechst(low)) transit the cell cycle under stimulation by interleukin-3 (IL-3), IL-6, IL-11, and steel factor, with engraftment being defective in late S/early G2. Engraftment also varies markedly with circadian time. Presumptive mechanisms for these phenotypic shifts include alteration in adhesion protein expression with consequent changes in marrow homing. Most recently, we have also demonstrated that stem cell differentiation varies markedly with cell cycle transit. There are other features of the hematopoietic stem cell which suggest that it is a highly plastic cell with the ability to rapidly change its membrane phenotype, while exhibiting extraordinary directed motility. These data suggest that cell cycle and circadian plasticity should be considered additional major features of the hematopoietic stem cell phenotype.

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neurons day 35 sheep membrane marrow homing most longterm engraftment functional plasticity adhesion protein stem cell differentiation microenvironmental

P, Quesenberry H, Habibian M, Dooner C, McAuliffe J F, Lambert G, Colvin C, Miller A, Frimberger P, Becker,.Physical and physiological plasticity of hematopoietic stem cells.. 27 (5),934-7.

P, Quesenberry H, Habibian M, Dooner C, McAuliffe J F, Lambert G, Colvin C, Miller A, Frimberger P, Becker,"Physical and physiological plasticity of hematopoietic stem cells." 27

P, Quesenberry H, Habibian M, Dooner C, McAuliffe J F, Lambert G, Colvin C, Miller A, Frimberger P, Becker,"Physical and physiological plasticity of hematopoietic stem cells."