In The News

It is the No. 1 line-item cost of Medicare reimbursement and affects more than 20 million people in the United States. Cataracts, which can have devastating effects on the eye, affect 42 percent of the population between the ages of 70 and 80, and 68 percent of the population over the age of 80, according to National Eye Institute. Now, a University of Missouri professor has identified an important step in how cataracts form. This discovery, which was published in a recent edition of The Journal of Biological Chemistry, could lead to a better treatment or cure for cataracts in the future.

In his study, K. Krishna Sharma, a professor of ophthalmology at MU, found that a specific type of protein begins to lose function as the eye ages. As the protein loses function, small peptides, made of 10-15 amino acids, start forming and accelerate cataract formation in the eye.

“It is very helpful to track the formation of these peptides,” Sharma said. “The next step is to work on preventing their formation. If we are successful, we could delay the aging process in the eye. It has been estimated that a ten-year delay in the onset of cataracts could decrease the 1.5 million to 2 million cataract surgeries carried out each year now by 45 percent and have a significant impact on vision care cost.”

Dr. Sharma

About 50 percent of the lens is made of proteins, and 90 percent of the proteins are structures known as crystallins. One of the main functions of the crystallins is to maintain the clarity of the lens by its "chaperone" function. In a healthy eye, crystallins break down over time, eventually degrading to small peptides and are cleared from the eye with the help of other proteins known as “proteases.” As the eye ages, small peptides start to form at an increasing rate.

As the number of small peptides increases in the eye, chaperone protein activity also starts to fall, and there is less cleansing activity inside the lens. Finally, as the small peptides increase, the eye’s lens starts to develop cataracts. There are a variety of causes that lead to the decrease of chaperone protein activity, and the presence of peptides accelerates the process, Sharma said.

“It’s a very sad situation, because cataracts can have a huge impact on the quality of a person’s life,” Sharma said. “People lose the ability to appreciate visual art, and have to learn a new set of skills to navigate. This study will bring us another step closer to understanding how cataracts form in the eye and answer how best to treat this debilitating disease.”

Approximately 50 percent of cataract formation in older individuals is age related, but other risk factors include genetics, smoking, exposure to UV light and diabetes. According to the National Eye Institute, symptoms of early cataracts may be improved with new eyeglasses, brighter lighting, anti-glare sunglasses or magnifying lenses. If these measures do not help, surgery is the only effective treatment. Surgery involves removing the cloudy lens and replacing it with an artificial lens.

Read the study online at http://www.jbc.org/cgi/content/abstract/283/13/8477

Dr. Krishna Sharma