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CHAMPIONS TACKLING MS - AWARDS Dinner, Honoring Aaron Boster, MD and Jon e. Glaser, DDS - now open for registration. Visit www.events.msvn.org
Saturday, April 14, 2007
April 12, 2007
Story found in the Accelerated Cure Project MS News site
Repetitive transcranial magnetic stimulation (rTMS) may improve spasticity in multiple sclerosis. rTMS is a non-invasive method of stimulating localized regions of the brain with magnetic fields. This research showed that repetitive stimulations improved spasticity in people with MS when compared to sham stimulation.
Tuesday, April 10, 2007
Published: Saturday, 7-Apr-2007
Immunology researchers at the Kimmel Cancer Center at Jefferson studying a multiple sclerosis (MS)-like disease in mice have shown that the amount of "damage" to the central nervous system's protective blood-brain barrier, in essence, opening it, almost always correlates to the severity of the disease.
The findings, reported online in the Proceedings of the National Academy of Sciences, can be used for testing potential MS therapies and for better understanding the role of the blood-brain barrier in disease processes.
Scientists led by D. Craig Hooper, Ph.D., associate professor of cancer biology at Jefferson Medical College of Thomas Jefferson University in Philadelphia, and Hilary Koprowski, M.D., professor of cancer biology at Jefferson Medical College and director of Jefferson's Center for Neurovirology and the Biotechnology Foundation Laboratories, wanted to find out what factors might affect the onset and severity of EAE (experimental allergic encephalomyelitis), an MS-like autoimmune disease often used as a model. They studied various strains of mice, each lacking some genes associated with inflammation and immunity, and looked at what happened to the blood-brain barrier.
They discovered that the amount of blood-brain barrier damage and subsequent permeability increase correlated to the severity of disease, and surprisingly, in nearly every case, the mouse's genetic make-up didn't matter. The mice developed EAE even without supposedly crucial factors in inflammation and autoimmunity and disease.
"We've now shown in all of these mice missing certain components of the immune system that, as expected, opening the blood-brain barrier and letting cells and factors in from the circulation is critical to the development of disease," Dr. Hooper says. "The fact that the extent of the permeability change correlates with the severity of clinical disease signs shows that this is an important element in determining how sick these animals can get.
"This puts an emphasis on the fact that blood brain permeability changes are an important aspect of the development of a CNS inflammatory disease like EAE, an animal model of MS," he says.
According to Dr. Hooper, previous studies by his group and other researchers have shown that blood-brain barrier permeability is critical in the development of MS. To study this permeability, he and his co-workers looked at a range of mice lacking certain genes for various types of immune system and inflammatory cells such as NF kappaB, TNF-alpha, and interferon alpha, beta and gamma that contribute to disease. The researchers established EAE in each mouse strain and examined what was common to all of the animals when they developed disease.
"What's astounding is that mice that wouldn't be expected to develop EAE because they have major defects in their immune system are still able to develop disease," though at different rates, he notes.
However, mice missing the immune protein TNF-alpha often did not show disease, despite the increase in brain barrier permeability, causing the scientists to speculate about its role in the disease. "This is the first proof that there are permeability changes in all of these animals and the first hint that permeability doesn't always equal disease," he says.
Dr. Hooper notes that the work is part of the long-range goal of determining the exact role of blood-brain barrier permeability in disease. "These results tell us a great deal about the mechanisms that damage the blood-brain barrier," he says. "All of these factors that are missing in the mice aren't essential to opening the blood brain barrier."