By a News Reporter-Staff News Editor at Gene Therapy Weekly -- WASHINGTON - A team of researchers at Georgetown University Medical Center (GUMC) has found that loss of an anti-aging gene induces retinal degeneration in mice and might contribute to age-related macular degeneration, the major cause of blindness in the elderly (see also Age-Related Macular Degeneration).
In the Oct. 9 issue of the Journal of Neuroscience, the scientists demonstrated a key role for the aging-suppressor gene Klotho in maintaining the health of the mouse and human retina. They say that in their animal studies, loss of Klotho expression leads to characteristics observed in both kinds of macular degeneration - wet and dry - seen in humans.
Klotho, a hormone that is synthesized and secreted by some organs and tissues, is being studied worldwide for its anti-aging properties. A Japanese researcher discovered 15 years ago that when Klotho is mutated, a mouse that should live two years survives for only two months. Transgenic mice that overexpress the Klotho gene have a longer-than-expected lifespan.
"We found four important functions Klotho provides in the human retina, which leads us to believe that the gene is crucial to the health of this light sensitive tissue," says the study's senior investigator, Nady Golestaneh, PhD, assistant professor of ophthalmology, neurology, biochemistry and molecular & cellular biology at GUMC.
They found that Klotho increases the activity of genes that synthesize the light absorbing visual pigments in the retinal cells. Klotho also increases the expression of genes that protect against the oxidative stress known to damage the retina, and which can lead to dry macular degeneration. Klotho inhibits the vascular endothelial growth factor and therefore, might play an important role in inhibiting the overgrowth of blood vessels in the eye, a major cause of wet macular degeneration.
Klotho also regulates phagocytosis of the outer segment of photoreceptors in the retina. This process allows the photoreceptors to renew themselves, and if that function is abolished, the photoreceptors degenerate and die causing blindness.
"For these reasons, we believe Klotho might be an interesting therapeutic target for age-related macular degeneration," Golestaneh says. "Gene therapy or cell therapy might be able to induce new expression of Klotho in the aging retina."
But she adds that before these strategies can be tested, research that quantifies the decline of Klotho expression in human eyes, and directly links this dysfunction to macular degeneration, must be undertaken.
Keywords for this news article include: Biotechnology, Genetics, Gene Therapy, Therapeutics, Bioengineering, Retinal Diseases, Retinal Degeneration, Age-Related Macular Degeneration, Georgetown University Medical Center.
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