 |
|
UCLA study uncovers clues for why Graves' disease attacks the eyes
March 01, 2007Discovery suggests new target for treating the autoimmune disorder
UCLA researchers have uncovered new clues that may explain why Graves' disease (GD) attacks the muscle tissue behind the eyes, often causing them to bulge painfully from their sockets, as in the late actor Marty Feldman.
Scientists at UCLA's Jules Stein Eye Institute and Harbor-UCLA Medical Center discovered defects in the infection-fighting T-cells of GD patients' immune systems. Reported March 1 in the Journal of Immunology, their study may deepen understanding of how the autoimmune disorder damages the body and offer a new target for treating the disfiguring disease.
Earlier research found that GD patients' immune systems produce an antibody that other people do not. Not recognizing the patient's thyroid as "self," the antibody mistakenly mounts an attack against the organ, causing inflammation and damage to the body, including eye tissue.
In the current study, UCLA researchers discovered that T-cells taken from GD patients contain an abnormal surplus of the receptor targeted by this antibody. An antibody must latch to a specific receptor - like a key into a lock — in order to elicit a cellular response. The receptors mobbed the patients' immune systems, even on T-cells that normally would not produce them.
"We didn't know why GD patients' cells created a new antibody, but had a hunch that that it sprang from an immune abnormality," explained Dr. Raymond Douglas, first author and assistant professor of ophthalmology at the Jules Stein Eye Institute. "Because T-cells are the generals of the immune system and lead the attack in any immune response, we assumed that they played a key role in this antibody's development."
The team tested GD patients' blood for the antibody and compared their findings to samples from healthy people, with about 100 subjects in each group. The new antibody was found in almost all of the GD patients' blood.
The new antibody binds to the excess receptors on the T-cells, mimicking the actions of a hormone called IGF-1, or insulin-like growth factor 1. Similar to insulin, IGF-1 stimulates cell growth while suppressing normal cell death. The team suspects that this mechanism prolongs the survival of older T-cells, causing a cascade of autoimmune problems that spur the body to attack its own tissue.
"We think that the extra receptors allow the new antibody and IGF-1 to disrupt the programming of the T-cells," said principal investigator Dr. Terry Smith, professor of medicine at the David Geffen School of Medicine and chief of molecular medicine at Harbor-UCLA Medical Center.
"The antibody provokes the receptor to signal the T-cell to grow and multiply - long after the cell was programmed to die," he explained. "After two or three generations of this process, we suspect that the high-jacked T-cells mutiny over the normal T-cells, sparking the body's immune reaction against itself."
The next step is to identify what the T-cells are reacting to and how the receptor enables the cells to survive beyond their normal lifespan. The team plans to develop an antibody drug to block the receptor from interacting with the T-cells and slow down the disease.
In Graves' disease, the thyroid gland goes into overdrive, producing excess levels of hormone that attack the tissue behind the eye, causing them to protrude. In extreme cases, patients experience trouble closing their eyelids, severe double vision, corneal scarring, optic nerve damage and even blindness.
Graves' disease is nine times more common in women than men. The disorder most often strikes during the childbearing years, and runs an average course of one to two years. No cure exists, though surgery can be done at the end stage to correct disfigurement.
University of California-Los Angeles
Earlier research found that GD patients' immune systems produce an antibody that other people do not. Not recognizing the patient's thyroid as "self," the antibody mistakenly mounts an attack against the organ, causing inflammation and damage to the body, including eye tissue.
In the current study, UCLA researchers discovered that T-cells taken from GD patients contain an abnormal surplus of the receptor targeted by this antibody. An antibody must latch to a specific receptor - like a key into a lock — in order to elicit a cellular response. The receptors mobbed the patients' immune systems, even on T-cells that normally would not produce them.
"We didn't know why GD patients' cells created a new antibody, but had a hunch that that it sprang from an immune abnormality," explained Dr. Raymond Douglas, first author and assistant professor of ophthalmology at the Jules Stein Eye Institute. "Because T-cells are the generals of the immune system and lead the attack in any immune response, we assumed that they played a key role in this antibody's development."
The team tested GD patients' blood for the antibody and compared their findings to samples from healthy people, with about 100 subjects in each group. The new antibody was found in almost all of the GD patients' blood.
The new antibody binds to the excess receptors on the T-cells, mimicking the actions of a hormone called IGF-1, or insulin-like growth factor 1. Similar to insulin, IGF-1 stimulates cell growth while suppressing normal cell death. The team suspects that this mechanism prolongs the survival of older T-cells, causing a cascade of autoimmune problems that spur the body to attack its own tissue.
"We think that the extra receptors allow the new antibody and IGF-1 to disrupt the programming of the T-cells," said principal investigator Dr. Terry Smith, professor of medicine at the David Geffen School of Medicine and chief of molecular medicine at Harbor-UCLA Medical Center.
"The antibody provokes the receptor to signal the T-cell to grow and multiply - long after the cell was programmed to die," he explained. "After two or three generations of this process, we suspect that the high-jacked T-cells mutiny over the normal T-cells, sparking the body's immune reaction against itself."
The next step is to identify what the T-cells are reacting to and how the receptor enables the cells to survive beyond their normal lifespan. The team plans to develop an antibody drug to block the receptor from interacting with the T-cells and slow down the disease.
In Graves' disease, the thyroid gland goes into overdrive, producing excess levels of hormone that attack the tissue behind the eye, causing them to protrude. In extreme cases, patients experience trouble closing their eyelids, severe double vision, corneal scarring, optic nerve damage and even blindness.
Graves' disease is nine times more common in women than men. The disorder most often strikes during the childbearing years, and runs an average course of one to two years. No cure exists, though surgery can be done at the end stage to correct disfigurement.
University of California-Los Angeles
Antibody News and Current Antibody Events RSSM. D. Anderson study finds change in HER2 status after treatment with Herceptin
Researchers at The University of Texas M. D. Anderson Cancer Center have discovered that when treated with Herceptin prior to surgery, 50 percent of HER2 positive, breast cancer patients showed no signs of disease at the time of surgery.
Early onset gene for inflammatory bowel diseases identified
A study of Crohn's disease and ulcerative colitis in children has identified a gene that influences whether children get these diseases early in life, and points to a potential new target for treatment.
Early trigger for type-1 diabetes found in mice, Stanford scientists report
Scientists at the Stanford University School of Medicine are shedding light on how type-1 diabetes begins.
New hope for stroke patients
If a stroke patient doesn't get treatment within approximately the first three hours of symptoms, there's not much doctors can do to limit damage to the brain.
New and improved test for West Nile virus in horses
A new test for West Nile virus in horses that could be modified for use on humans and wildlife may help track the spread of the disease, according to an article in the September issue of the Journal of Medical Microbiology.
Survivors of 1918 flu pandemic protected with a lifetime immunity to virus
New research has discovered that infection and natural exposure to the 1918 influenza virus made survivors immune to the disease for the remaining of their lives.
1918 flu antibodies resurrected from elderly survivors
Ninety years after the sweeping destruction of the 1918 flu pandemic, researchers at Monroe Carell Jr. Children's Hospital at Vanderbilt have recovered antibodies to the virus - from elderly survivors of the original outbreak.
Slipping through cell walls, nanotubes deliver high-potency punch to cancer tumors in mice
The problem with using a shotgun to kill a housefly is that even if you get the pest, you'll likely do a lot of damage to your home in the process. Hence the value of the more surgical flyswatter.
Protein complementarity may offer new insights into autoimmune diseases
The discovery of "complementary" antibodies against plasminogen in patients with blood vessel inflammation caused by anti-neutrophil cytoplasmic autoantibodies (ANCAs) may lead to new approaches to research, testing, and treatment of ANCA vasculitis and other autoimmune diseases, suggests a paper in the December Journal of the American Society of Nephrology (JASN).
Researchers disprove long-standing belief about HIV treatment
Researchers at Wake Forest University Baptist Medical Center have disproved a long-standing clinical belief that the hepatitis C virus slows or stunts the immune system's ability to restore itself after HIV patients are treated with a combination of drugs known as the "cocktail."
More Antibody News Articles
 | Antibodies (The X-Files) by Kevin J. Anderson A novel based on the Emmy Award-winning television series created by Chris Carter. When a disease-ravaged body is found in the smoldering ruins of the federally funded DyMar genetic research lab, Agents Fox Mulder and Dana Scully fear that a deadly, man-made plague is on the loose. As the FBI agents investigating the "X-Files" -- cases the bureau has deemed unsolvable -- Mulder and Scully pursue... |
 | Handbook of Therapeutic Antibodies 3-Volume Set In this most comprehensive reference source for the development, production and therapeutic application of antibodies, Volume I contains general chapters presenting established technologies and clinical applications. Volume II provides a look at emerging technologies, new therapeutic concepts, and clinical studies. The third volume features detailed and specific information about each currently... |
 | Antibodies: A Laboratory Manual by Ed Harlow, David Lane Introduction to immunochemistry for molecular biologists and other nonspecialists.... |
 | Immunogenicity of Biopharmaceuticals (Biotechnology: Pharmaceutical Aspects) (Biotechnology: Pharmaceutical Aspects) A particular issue for biopharmaceuticals that has not been addressed comprehensively in any book, is the potential of an immune response to the biopharmaceutical product. That is, the human body marks the drug as a foreign body, and develops antibodies against the drug. These antibodies may be relatively harmless, but may also cross-react with the endogenous compound, causing autoimmunogenicity.... |
 | Informed Consent by Sandra Glahn Jeremy Cramer, M.D. is the next Einstein of infectious disease research. While working on a way to revive water submersion victims, he makes a breakthrough discovery in AIDS research that thrusts him into the center of a media frenzy. But the publicity turns negative and his marriage reaches the breaking point when he accidentally infects a colleague and his negligence allows his son to contract... |
 | Using Antibodies : A Laboratory Manual : Portable Protocol NO. I by Ed Harlow, David Lane ...provides background, context & step-by-step instructions for techniques that range from choosing the right antibody & handling it correctly, to the proper methods for characterizing antigens in cells &... |
 | Cellular and Molecular Immunology by Abul K. Abbas, Andrew H. Lichtman The 5th Edition of this comprehensive title continues the tradition of delivering an accessible, engaging, and current introduction to this essential subject. The authors describe the principles of basic and applied immunology in a concise, straightforward manner, while incorporating the most up-to-date information. Over 400 illustrations help readers quickly and easily grasp key concepts. The... |
 | Antibody by D. Scott Wilson What if one day an idea occurred to you that was so simple, so powerful, so eminently possible that with it you could save the world? Graduate student and Earth lover Adam Davidson faces that question and sets out to create a bio-tech solution to world overpopulation that sidesteps all the political, economic, and practical barriers--a solution that could really work. From the arid canyons of New... |
 | Blood Group Antigens & Antibodies: A Guide to Clinical Relevance & Technical Tips by Marion E. Reid, Christine Lomas-Francis This easy-to-use, easy-to-carry pocket book contains nearly 300 ISBT recognized blood group antigens and their corresponding antibodies including: significance in transfusions, number of expected compatible donors, characters of the antibodies, and technical... |
 | Manual of Diagnostic Antibodies for Immunohistology by Anthony S-Y. Leong, Kumarasen Cooper, F. Joel W-M. Leong The rapid acceptance of immunohistochemistry as an important and even indispensable adjunct to morphological examination and diagnosis requires the modern anatomical pathology laboratory to be conversant with, and proficient in, immunostaining procedures, as well as methods of tissue processing and antigen retrieval and the underlying characteristics of the increasing number of antibodies and... |
| © 2008 BrightSurf.com |