Friday, July 14, 2023

Could drops replace eye injections for retina disease?


Peer-Reviewed Publication

COLUMBIA UNIVERSITY IRVING MEDICAL CENTER




NEW YORK, NY-- A new study suggests that eye drops developed by Columbia University researchers could be a more effective–and comfortable–therapy for a common eye disease currently treated with injections into the eye.

Retinal vein occlusion (RVO), an eye disease that affects up to 2% of people over age 40, occurs when a vein in the eye’s retina becomes blocked, leading to swelling in the eye, inflammation, damage to the retina, and vision loss. 

Standard therapy involves injecting into the eye a vascular endothelial growth factor inhibitor (anti-VEGF) that reduces swelling. The therapy can improve vision but patients with significant retinal damage due to impaired blood flow often have poor outcomes.

“Anti-VEGF therapy has helped a lot of people with RVO, but the fear factor—having to get a needle in the eye—causes many people to delay treatment, which can lead to retinal damage,” says Carol M. Troy, MD, PhD, professor of pathology & cell biology and of neurology at Columbia University Vagelos College of Physicians and Surgeons. “There’s an opportunity to help more people with this disease that is a leading cause of blindness worldwide.”

The study found that an experimental eye drop treatment was twice as effective as the standard injection therapy at reducing swelling and improving blood flow within the retina of mice with RVO. The eye drops also prevented neurons (photoreceptors) in the retina from deteriorating and preserved visual function over time, whereas the standard injections had no effect on either. 

Eye drops target ‘death enzyme’

The eye drops contain an experimental drug that blocks caspase-9, an enzyme that triggers cell death, and was found by Troy’s lab to be overactive in blood vessels injured by RVO. 

“We think the eye drops improve the health of blood vessels in the retina, which then decreases the toxic signaling that damages the retina’s neurons and leads to vision loss,” says Maria I. Avrutsky, PhD, the study’s first author who conducted the research as a postdoc in the Troy lab.

Future studies are aimed at preparing to test the eye drops in human clinical trials and identifying additional therapeutic targets. 

“Finding the root cause of RVO is the holy grail, but if we can at least provide better symptomatic relief that doesn’t distress patients, it would be a really good start,” Troy says. 

More information

The study, “Caspase-9 inhibition confers stronger neuronal and vascular protection compared to VEGF neutralization in a mouse model of retinal vein occlusion,” was published online in Frontiers of Neuroscience

All authors: Maria I. Avrutsky (Columbia, now at Character Biosciences), Claire W. Chen (Columbia), Jacqueline M. Lawson (Columbia), Scott J. Snipas (Sanford Burnham Prebys Medical Discovery Institute, La Jolla, CA) Guy S. Salvesen (Sanford Burnham Prebys), and Carol M. Troy (Columbia).

The study was supported by a sponsored research agreement with Opera Therapeutics and grants from the National Institutes of Health (R01NS091333 and T32EY013933) and the Department of Defense Army/Air Force. 

Carol Troy and Maria Avrutsky are inventors on patent applications filed by Columbia University related to the therapeutic use of caspase-9 inhibitors. Maria Avrutsky received consulting income from Opera Therapeutics.

The other authors report no financial or other conflicts of interest.

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Columbia University Irving Medical Center (CUIMC) is a clinical, research, and educational campus located in New York City. Founded in 1928, CUIMC was one of the first academic medical centers established in the United States of America. CUIMC is home to four professional colleges and schools that provide global leadership in scientific research, health and medical education, and patient care including the Vagelos College of Physicians and Surgeons, the Mailman School of Public Health, the College of Dental Medicine, the School of Nursing. For more information, please visit cuimc.columbia.edu.

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