Michael I. Collector scite author profile

Purification of rare hematopoietic stem cell(s) (HSC) to homogeneity is required to study their self-renewal, differentiation, phenotype, and homing. Long-term repopulation (LTR) of irradiated hosts and serial transplantation to secondary hosts represent the gold standard for demonstrating self-renewal and differentiation, the defining properties of HSC. We show that rare cells that home to bone marrow can LTR primary and secondary recipients. During the homing, CD34 and SCA-1 expression increases uniquely on cells that home to marrow. These adult bone marrow cells have tremendous differentiative capacity as they can also differentiate into epithelial cells of the liver, lung, GI tract, and skin. This finding may contribute to clinical treatment of genetic disease or tissue repair.

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Hematopoietic stem cells convert into liver cells within days without fusion

Jang

et al. 2004

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Both plasticity and cell fusion have been suggested to have a role in germ-layer switching. To understand the mechanisms underlying cell fate changes, we have examined a highly enriched population of hematopoietic stem cells (HSCs) in vitro or in vivo in response to injury for liver-specific phenotypic and functional changes. Here we show that HSCs become liver cells when cocultured with injured liver separated by a barrier. Chromosomal analyses and tissue-specific gene and/or protein expression show that microenvironmental cues rather than fusion are responsible for conversion in vitro. We transplanted HSCs into liver-injured mice and observed that HSCs convert into viable hepatocytes with increasing injury. Notably, liver function was restored 2-7 d after transplantation. We conclude that HSCs contribute to the regeneration of injured liver by converting into functional hepatocytes without fusion.

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A clinically relevant population of leukemic CD34+CD38− cells in acute myeloid leukemia

et al. 2012

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Assessment of aldehyde dehydrogenase in viable cells

et al. 1995

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Cytosolic aldehyde dehydrogenase (ALDH), an enzyme responsible for oxidizing intracellular aldehydes, has an important role in ethanol, vitamin A, and cyclophosphamide metabolism. High expression of this enzyme in primitive stem cells from multiple tissues, including bone marrow and intestine, appears to be an important mechanism by which these cells are resistant to cyclophosphamide. However, although hematopoietic stem cells (HSC) express high levels of cytosolic ALDH, isolating viable HSC by their ALDH expression has not been possible because ALDH is an intracellular protein. We found that a fluorescent aldehyde, dansyl aminoacetaldehyde (DAAA), could be used in flow cytometry experiments to isolate viable mouse and human cells based on their ALDH content. The level of dansyl fluorescence exhibited by cells after incubation with DAAA paralleled cytosolic ALDH levels determined by Western blotting and the sensitivity of the cells to cyclophosphamide. Moreover, DAAA appeared to be a more sensitive means of assessing cytosolic ALDH levels than Western blotting. Bone marrow progenitors treated with DAAA proliferated normally. Furthermore, marrow cells expressing high levels of dansyl fluorescence after incubation with DAAA were enriched for hematopoietic progenitors. The ability to isolate viable cells that express high levels of cytosolic ALDH could be an important component of methodology for identifying and purifying HSC and for studying cyclophosphamide-resistant tumor cell populations.

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