Researchers at the University of Michigan Kellogg Eye Center have
identified a compound that could interrupt the chain of events that cause
damage to the retina in diabetic retinopathy. The finding is significant
because it could lead to a novel therapy that targets two mechanisms at the
root of the disease: inflammation and the weakening of the blood barrier that
protects the retina.
To date, treatments for diabetic
retinopathy, the leading cause of blindness among working-age Americans, have
been aimed largely at one of those mechanisms.
In diabetic retinopathy, damage
to the retina results, in part, from the activity of vascular endothelial
growth factor (VEGF), a protein that weakens the protective blood-retinal
barrier. Recent drugs targeting VEGF have exhibited good response for nearly
half of the patients with diabetic retinopathy. But researchers believe that
there is also an inflammatory component that may contribute to the disease
process.
The study, published in the Biochemical
Journal, June 2012 [epub ahead of print] identifies a specific protein common
to both pathways as an important target in regulating the disease process in
which blood vessels become leaky, and provides a drug that may be developed
into a therapeutic intervention for patients in which anti-VEGF treatment alone
is not sufficient.
"In diabetic retinopathy and
a host of other retinal diseases, increases in VEGF and inflammatory factors —
some of the same factors that contribute to the response to an infection —
cause blood vessels in the eye to leak which, in turn, results in a buildup of
fluid in the neural tissue of the retina," says David A. Antonetti, Ph.D.,
Professor, Department of Ophthalmology and Visual Sciences and Molecular and
Integrative Physiology, who has also been awarded a Jules and Doris Stein
Professorship from Research to Prevent Blindness. "This insidious form of
modified inflammation can eventually lead to blindness."
The compound targets atypical
protein kinase C (aPKC), required for VEGF to make blood vessels leak.
Moreover, Antonetti's laboratory has demonstrated that the compound is
effective at blocking damage from tumor necrosis factor also elevated in
diabetic retinopathy that comprises part of the inflammation. Benefits of this
compound could extend to therapies for uveitis, or changes to the brain blood
vessels in the presence of brain tumors or stroke.
"This is a great leap
forward," says Antonetti. "We've identified an important target in
regulating blood vessel leakage in the eye and we have a therapy that works in
animal models. Our research is in the early stages of development. We still
have a long way to go to demonstrate effectiveness of this compound in humans
to create a new therapy but the results are very promising." More
information: Novel Atypical PKC Inhibitors Prevent Vascular Endothelial Growth
Factor-Induced Blood-Retinal Barrier Dysfunction, Biochemical Journal, 22 June
2012 [epub ahead of print]
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