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Immune cell age plays role in retinal damage in age-related macular degeneration
November 02, 2007Studying a mouse model of age-related macular degeneration, the leading cause of blindness in older Americans, scientists at Washington University School of Medicine in St. Louis have found age is key in determining whether damaging blood vessels will form beneath the retina and contribute to vision loss.
The scientists discovered that specific immune cells called macrophages play a role in the disease process in older mice by failing to block the development of abnormal, leaky blood vessels behind the retina. But in younger mice, macrophages typically prevent abnormal blood vessel formation.
The scientists believe better understanding of how macrophages work may provide potential targets for therapies to slow or even reverse vision loss. The findings are reported in the November issue of the Journal of Clinical Investigation.
Age-related macular degeneration is the leading cause of blindness in the United States in people over the age of 50. It accounts for more than 40 percent of blindness among the elderly in nursing homes, and as baby boomers get older, the problem is expected to grow, with at least 8 million cases predicted by the year 2020.
Whether the macrophages will block or encourage the growth of damaging blood vessels is related to the subtype of macrophage according to principal investigator Rajendra S. Apte, M.D., Ph.D., assistant professor of ophthalmology and visual sciences.
"There are two basic types of macrophages - known as M1 and M2 - and in the older mice, there was a preponderance of cells with the M2 signature," he says. "These M2 cells promoted abnormal blood vessel growth in the eyes of older mice. In younger mice, most macrophages had the M1 signature, and those cells inhibited the development of defective blood vessels."
Apte says it appears the population of macrophages drifts from the M1 type to M2 cells because of an increase in the levels of an immune system molecule called interleukin-10 (IL-10) in the eye as the mice get older. In a previous study, his team had found that high levels of IL-10 interfere with macrophages' ability to regulate blood vessel growth. As mice got older, the animals made more IL-10, and this caused more macrophages to become the M2 type.
"The older mice had much higher levels of IL-10," Apte explains. "That suggests IL-10 may be driving this process because higher IL-10 levels are associated with more M2 macrophages that cannot regulate blood vessel growth, and lack of IL-10, as in genetic knockout mice, leads to a preponderance of M1 macrophages."
The blood vessels that form in age-related macular degeneration are not like the mature vessels found in most of the body. Vessels associated with the disease don't have normal, tight junctions, but rather leak and bleed. They also tend to be located beneath the macula, the center of the retina, and when they bleed, the result is loss of vision.
Just as there are two types of macrophages, there also are two types of macular degeneration: a "dry" form and a "wet" form. Most patients have the dry form of the disease, which sometimes can progress and cause severe vision loss. But between 80 and 90 percent of blindness occurs in the wet form of the disease and is caused by abnormal blood vessel growth beneath the retina.
Apte's team studied both young and old mice whose eyes were treated with a laser that spurs the growth of the damaging blood vessels. Although the acute laser injury is not identical to the chronic damage caused by the disease, Apte says the animal model has been remarkably successful in identifying therapies to treat the blinding eye disease.
Some of the laser-treated mice could not make IL-10. Previously, Apte's team found that mice genetically engineered without IL-10 develop fewer abnormal vessels beneath the retina. That also was true in this study. One reason may be that mice without IL-10 have mostly M1 macrophages, which inhibit new blood vessel formation.
It may be true, Apte says, that as people age, they experience increases in IL-10 levels, as well as other cytokines that influence a drift towards M2 macrophages just as the mice do. It's also possible that factors such as smoking, uncontrolled high blood pressure or a genetic pre-disposition may enhance this process.
"It appears from the mice we've studied that the microenvironment in and around the eye might influence how macrophages behave and what subclass of macrophages is likely to be present," Apte says. "We believe this cascade involving IL-10 and macrophages provides potential targets for therapies to prevent some of the devastating vision loss that affects so many patients with age-related macular degeneration and may even be useful in treating other diseases that involve abnormal blood vessel growth, such as cancer and heart disease."
Washington University School of Medicine
Age-related macular degeneration is the leading cause of blindness in the United States in people over the age of 50. It accounts for more than 40 percent of blindness among the elderly in nursing homes, and as baby boomers get older, the problem is expected to grow, with at least 8 million cases predicted by the year 2020.
Whether the macrophages will block or encourage the growth of damaging blood vessels is related to the subtype of macrophage according to principal investigator Rajendra S. Apte, M.D., Ph.D., assistant professor of ophthalmology and visual sciences.
"There are two basic types of macrophages - known as M1 and M2 - and in the older mice, there was a preponderance of cells with the M2 signature," he says. "These M2 cells promoted abnormal blood vessel growth in the eyes of older mice. In younger mice, most macrophages had the M1 signature, and those cells inhibited the development of defective blood vessels."
Apte says it appears the population of macrophages drifts from the M1 type to M2 cells because of an increase in the levels of an immune system molecule called interleukin-10 (IL-10) in the eye as the mice get older. In a previous study, his team had found that high levels of IL-10 interfere with macrophages' ability to regulate blood vessel growth. As mice got older, the animals made more IL-10, and this caused more macrophages to become the M2 type.
"The older mice had much higher levels of IL-10," Apte explains. "That suggests IL-10 may be driving this process because higher IL-10 levels are associated with more M2 macrophages that cannot regulate blood vessel growth, and lack of IL-10, as in genetic knockout mice, leads to a preponderance of M1 macrophages."
The blood vessels that form in age-related macular degeneration are not like the mature vessels found in most of the body. Vessels associated with the disease don't have normal, tight junctions, but rather leak and bleed. They also tend to be located beneath the macula, the center of the retina, and when they bleed, the result is loss of vision.
Just as there are two types of macrophages, there also are two types of macular degeneration: a "dry" form and a "wet" form. Most patients have the dry form of the disease, which sometimes can progress and cause severe vision loss. But between 80 and 90 percent of blindness occurs in the wet form of the disease and is caused by abnormal blood vessel growth beneath the retina.
Apte's team studied both young and old mice whose eyes were treated with a laser that spurs the growth of the damaging blood vessels. Although the acute laser injury is not identical to the chronic damage caused by the disease, Apte says the animal model has been remarkably successful in identifying therapies to treat the blinding eye disease.
Some of the laser-treated mice could not make IL-10. Previously, Apte's team found that mice genetically engineered without IL-10 develop fewer abnormal vessels beneath the retina. That also was true in this study. One reason may be that mice without IL-10 have mostly M1 macrophages, which inhibit new blood vessel formation.
It may be true, Apte says, that as people age, they experience increases in IL-10 levels, as well as other cytokines that influence a drift towards M2 macrophages just as the mice do. It's also possible that factors such as smoking, uncontrolled high blood pressure or a genetic pre-disposition may enhance this process.
"It appears from the mice we've studied that the microenvironment in and around the eye might influence how macrophages behave and what subclass of macrophages is likely to be present," Apte says. "We believe this cascade involving IL-10 and macrophages provides potential targets for therapies to prevent some of the devastating vision loss that affects so many patients with age-related macular degeneration and may even be useful in treating other diseases that involve abnormal blood vessel growth, such as cancer and heart disease."
Washington University School of Medicine
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This month's Ophthalmology, the journal of the American Academy of Ophthalmology (Academy) reports on a national study that finds cataract surgery is likely to benefit patients with age-related macular degeneration (AMD) at all stages of the disease, on a clinical trial showing that the steroid triamcinolone may be effective in advanced diabetic macular edema (DME) patients when standard treatment fails, and on the public's use of two Academy-sponsored online eye health forums.
1 shot of gene therapy and children with congenital blindness can now see
Born with a retinal disease that made him legally blind, and would eventually leave him totally sightless, the nine-year-old boy used to sit in the back of the classroom, relying on the large print on an electronic screen and assisted by teacher aides.
Experimental treatments restore partial vision to blind people
Two experimental treatments, a retinal prosthesis and fetal tissue transplant, restored some vision to people with blinding eye diseases. The findings, presented at Neuroscience 2009, the annual meeting of the Society for Neuroscience and the world's largest source of emerging news on brain science and health, may lead to new treatments for the blind.
Researchers discover mechanism that helps humans see in bright and low light
Ever wonder how your eyes adjust during a blackout? When we go from light to near total darkness, cells in the retina must quickly adjust. Vision scientists at Washington University School of Medicine in St. Louis have identified an intricate process that allows the human eye to adapt to darkness very quickly. The same process also allows the eye to function in bright light.
Cancer drug is no different in effectiveness as gold standard treatment for macular degeneration
Investigators from Boston University School of Medicine (BUSM) and the VA Boston Healthcare System have shown, at 6 months in a small group of patients, that there is no difference in efficacy between Bevacizumab (Avastin) and Ranibizumab (Lucentis) for the treatment of age-related macular degeneration (AMD).
Designing drugs and their antidotes together improves patient care
Imagine a surgical patient on a blood-thinning drug who starts bleeding more than expected, and an antidote that works immediately - because the blood thinner and antidote were designed to work together.
World's most sensitive astronomical camera developed at the Universite de Montreal
A team of Université de Montréal researchers, led by physics PhD student Olivier Daigle, has developed the world's most sensitive astronomical camera.
MIT retinal implant could help restore some vision
MIT engineers have designed a retinal implant for people who have lost their vision from retinitis pigmentosa or age-related macular degeneration, two of the leading causes of blindness.
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