Bone marrow transplants offer a way to cure leukemia, sickle cell disease, and a variety of other life-threatening blood disorders.There are two major problems, however: One is many patients don’t have a well-matched donor to provide the marrow needed to reconstitute their blood with healthy cells. Another is even with a well-matched donor, rejection or graft versus host disease can occur, and lifelong immunosuppression may be needed.
A much more powerful option would be to develop a means for every patient to serve as their own bone marrow donor. To address this challenge, researchers have been trying to develop reliable, lab-based methods for making the vital, blood-producing component of bone marrow: hematopoietic stem cells (HSCs).
Two new studies by NIH-funded research teams bring us closer to achieving this feat. In the first study, researchers developed a biochemical “recipe” to produce HSC-like cells from human induced pluripotent stem cells (iPSCs), which were derived from mature skin cells. In the second, researchers employed another approach to convert mature mouse endothelial cells, which line the inside of blood vessels, directly into self-renewing HSCs. When these HSCs were transplanted into mice, they fully reconstituted the animals’ blood systems with healthy red and white blood cells.
Tags: adult stem cell therapy, adult stem cells, B cells, blood, blood cells, blood disorders, blood stem cells, bone marrow transplant, bone marrow transplantation, cell reprogramming, endothelial cells, graft versus host disease, hematopoietic stem cells, HSC, HSCs, immune system, immunosuppression, induced Pluripotent Stem cells, iPS cells, iPSCs, leukemia, red blood cells, regenerative medicine, sickle cell disease, stem cells, T cells, transcription factors, white blood cells