University of Edinburgh scientists say the research takes them a step closer to creating blood stem cells that could reduce the need for bone marrow transplants in patients with cancer or blood disorders.
Enabling scientists to grow cells artificially from pluripotent stem cells could also lead to the development of personalised blood therapies.
Blood stem cells are found in bone marrow and produce all blood cells in the body. These cells - known as haematopoietic stem cells (HSCs) - help to restore blood supply in patients who have been treated for leukaemia.
Researchers used a mouse model to pinpoint exactly how HSCs develop in the womb. They showed for the first time how three key molecules interact together to generate the cells, which are later found in adult bone marrow.
The discovery could help scientists to recreate this process in the lab, in the hope that HSCs could one day be developed for clinical use.
Scientists say this fundamental understanding of early development may also have an impact on other diseases that affect blood formation and supply.
The research has been published in Nature Communications.
There is a pressing need to improve treatments for diseases like leukaemia and this type of research brings us a step closer to that milestone. The more we understand about how embryos develop these blood stem cells, the closer we come to being able to make them in the lab
Professor Alexander Medvinsky, MRC Centre for Regenerative Medicine, University of Edinburgh
Source: University of Edinburgh