Finally a better understanding of how plaque forms. I wonder if watermelon juice contains this stuff?
http://www.medicalnewstoday.com/releases/256585.php
LMU researchers led by Christian Weber have, for the first time, elucidated how cells that promote the development of atherosclerosis find their way to the blood vessel wall, where they stimulate the formation of obstructive deposits.
Atherosclerosis is one of the commonest causes of death in modern
societies. The condition is characterized by the build-up of fatty
deposits called atherosclerotic plaques on the inner surfaces of
arteries, which restrict, and may eventually cut off, blood flow. The
deposits can also be dislodged from their site of origin and may then
block major vessels in the heart or the brain, leading to
life-threatening myocardial infarction or stroke.
Monocytes, an important class of white blood cells, are known to
contribute significantly to the development of atherosclerosis. They are
actively recruited to atherosclerotic lesions, and promote plaque
development by sustaining a chronic inflammatory reaction.
Inhibition of monocyte recruitment therefore offers a way of
interrupting the build-up of plaques. However, one first needs to know
how the monocytes are actually localized to the vessel wall. Professor
Christian Weber and Dr. Maik Drechsler of the Institute for Prophylaxis
and Epidemiology of Cardiovascular Disease at LMU, in collaboration with
Oliver Söhnlein of LMU and a team at the Academic Medical Center in
Amsterdam, have now shown that the receptor molecules CCR1 and CCR5 are
crucially involved in the process by which monocytes are recruited to
the vessel wall. This process is made up of a sequence of distinct
steps, including adhesion of the endothelial cells that form the
arterial wall, and their subsequent transmigration into the bloodstream
by infiltration between neighboring endothelial cells, following
activation of the receptors by binding of their respective ligands.
The new findings correct a commonly held view of the precise function of
the CCR2 receptor in the recruitment of monocytes. "In contrast to what
has been assumed so far, this receptor does not mediate the
infiltration of monocytes into the vessel wall; instead, like another
chemokine receptor, CXCR2, it controls their mobilization from the bone
marrow into the bloodstream," says Oliver Söhnlein.
The receptor molecules CCR1 and CCR5 therefore present promising targets
for the development of novel approaches to the treatment of
atherosclerosis, using agents that inhibit their interaction with their
respective binding partners, either directly or indirectly. (EMBO Molecular Medicine)
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