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Hematopoietic Stem Cells: A Long History in Brief

February 21st, 2009

Promising cures for blood-related diseases, such as leukemia and lymphoma, hematopoietic stem cells (HSCs) have been heavily researched for decades. However, like many significant findings in science, their discovery was not made in search for such a cure, but stumbled upon while dealing with another serious medical issue of the time: radiation. While trying to treat people exposed to lethal doses of radiation during World War II, transplants from the spleen and bone marrow were found to rescue these victims (Ford et al., 1956). It was not until later that scientists determined that the HSCs present in these tissues were what was restoring the damaged tissues, observed by performing transplants using lethally irradiated mouse and rat models (Becker et al., 1963). HSCs in humans were further characterized and cultured in the 1980s (Morstyn et al., 1980; Sutherland et al., 1989; Sutherland et al., 1990). The formation of the National Marrow Donor Program during this time also greatly improved the availability of these cells for research. Not only have HSCs been successfully used clinically in humans since the 1950s, but to this day they are still one of the few adult stem cells to be tested for clinical uses.

It is now not only better understood how HSCs from a donor animal can save a lethally irradiated recipient animal, but how HSCs can be used in many other medical applications as well. HSCs are able to give rise to all cells in the hematopoietic system, which includes myeloid elements (i.e. red blood cells, white blood cells, platelets) and the lymphatic system (i.e. T-Cells) (Regenerative Medicine, 2006). Because radiation generally targets rapidly dividing cells, including bone marrow cells and cells in the lymphatic system, HSCs have the ability to replenish the supply of cells most damaged by radiation. While HSCs can be collected from adult bone marrow, some fetal tissues (liver, spleen, thymus), umbilical chords, and peripheral blood, in recent years there has been a great shift towards obtaining HSCs mainly from peripheral blood, using a much simpler and less controversial procedure, though achieving a large enough number of HSCs for transplants is still an obstacle to overcome (Stem Cells, 2001). HSCs are now being used to treat cancers of the hematopoietic system (leukemia and lymphomas), replenish cells lost to high-doses of chemotherapy, and fight against autoimmune diseases, in addition to other medical applications (Regenerative Medicine, 2006).

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Hematopoietic stem cells give rise to two major progenitor cell lineages, myeloid and lymphoid progenitors (Regenerative Medicine, 2006).

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