Source: University of Wisconsin-Madison
Date: September 10, 2012
Summary:
The protein GATA2 is known as a "master regulator" of blood cell development. When a mutation occurs in the gene that makes GATA2, serious blood diseases such as acute myeloid leukemia can result. Zooming in on the GATA2 gene, University of Wisconsin-Madison researchers and their collaborators at the National Institutes of Health (NIH) have discovered unexpectedly that a small DNA sequence drives this powerful master regulator. The sequence plays an essential role in controlling GATA2 production and generating self-renewing blood stem cells responsible for the earliest steps in the development of blood cells of all kinds — red cells to transport oxygen and white cells to fight infection.
The researchers also found that the DNA sequence, which they call the +9.5 GATA2 switch site, ensures that blood vessels function properly to prevent hemorrhaging. Until now, GATA2 had not been implicated in blood vessel integrity. The study appears in The Journal of Clinical Investigation (online Sept. 10, 2012).
