While this is good news, this just proves that no one seems to be willing to tackle solving the incredibly difficult problems in stroke. Leaders create strategies and tackle the difficult problems. They don't just sit back and continue down the failed status quo path. I need to quit getting mad about this before I blow an artery. But hell this is so fucking simple and obvious what needs to be done that I can't believe the thousands of highly educated stroke medical people don't have enough brains to see the way forward. And yes, this is not the way; 'How to Win friends and Influence People'. But I don't care.
http://www.alphagalileo.org/ViewItem.aspx?ItemId=154135&CultureCode=en
Studies on mice reveal that a special protein in the brain’s tiniest
blood vessels may affect the risk of stroke. Peter Carlsson, professor
in genetics at the University of Gothenburg, and his research team are
publishing new research findings in the journal Developmental Cell about
how the blood-brain barrier develops and what makes the capillaries in
the brain different from small blood vessels in other organs.
The brain’s smallest blood vessels differ from those in other organs
in that the capillary walls are much more compact. The nerve cells in
the brain get the nutrients they need by molecules actively being
transported from the blood, instead of passively leaking out from the
blood vessels.
This blood-brain barrier is vital, because it enables strict control
over the substances with which the brain’s nerve cells come into
contact. It has a protective function that if it fails, increases the
risk of stroke and other complications.
Special cell type essential to development
The smallest blood
vessels, the capillaries, have a type of cell called pericytes. These
are essential to the development of the blood-brain barrier. Pericytes
are also found in other organs, and researchers have previously been
unable to find out what gives the brain’s pericytes this unique ability.
The Gothenburg research team has found that the brain’s pericytes
contain a protein, FoxF2, which is not present in the pericytes of other
organs, and which coordinates the changes that make the blood vessels
compact. FoxF2 is needed in order for the blood-brain barrier to form
during foetal development.
“Mice that have too little or too much FoxF2 develop various types of
defects in the brain’s blood vessels,” explains Peter Carlsson,
professor at the University of Gothenburg’s Department of Chemistry and
Molecular Biology.
One gene may play a critical role
In humans, researchers have
noted that major changes in a region of chromosome 6 have been
associated with an increased risk of stroke, but it has not been known
which of the genes in the area are responsible for this risk.
“The FoxF2 gene is an extremely interesting candidate, as it is
located right in the middle of this region, and research is under way
now in collaboration with clinical geneticists to investigate the extent
to which variations in the FoxF2 gene affect people’s risk of suffering
a stroke,” says Peter Carlsson.
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http://www.gu.se/english/about_the_university/news-calendar/News_detail//key-protein-may-affect-risk-of-stroke.cid1310761
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