In Gainesville, Florida there is a new research on its way. The University Of Florida researchers have attained a huge grant to start on research that could possibly stop Multiple Sclerosis. The plan is to test it on lab rats before anything. The treatment is supposed to teach the body how to treat itself the way its supposed to. I f this research becomes successful they could be treating patients all over the world.
GAINESVILLE, Fla. — In patients with multiple sclerosis, the body turns on itself, launching an immune system attack that destroys the coating around nerve fibers in the central nervous system, leaving them exposed like bare wires. Similar to exposed electrical lines, the unprotected fibers touch and short out, leading to the neurodegenerative effects that are a hallmark of multiple sclerosis.
But what if doctors could stop the immune response that destroys the protective coating before the disease becomes debilitating? University of Florida researchers have received a $40,000 grant from the National Multiple Sclerosis Society to test a gene therapy technique in mice that aims to help the body not treat itself like a foreign invader — a process referred to as immune tolerance — in the earliest stages of multiple sclerosis. If the researchers can re-establish this tolerance, they could thwart the immune system attack, all with a technique that could be used on a wide number of patients.
“In previous years, we have learned a lot about how to manipulate tolerance using gene therapy,” said Brad E. Hoffman, Ph.D., an assistant professor of pediatrics in the UF College of Medicine. “Tolerance is your body’s way of not responding to substances that would otherwise induce an immune response so you don’t have an immune response to everything. In multiple sclerosis, the body loses that ability to distinguish between self and not-self so it starts to attack its own nervous system cells.”
About 2.3 million people worldwide suffer from multiple sclerosis, according to the National Multiple Sclerosis Society. The disease typically causes problems with vision, fatigue, speech, sensation and mobility. In advanced cases, multiple sclerosis can lead to blindness and paralysis.
Typically, gene therapy is used to correct a faulty gene in the body. In this case, researchers will deliver a gene responsible for a brain protein into the liver, via the harmless virus AAV, in hopes that it will spark production of regulatory T cells. These T cells, which suppress the immune system, are crucial because they could effectively shut down the immune attack in the brain, Hoffman said. The researchers are injecting the gene specifically into the liver because the organ filters out unwanted immune responses.
“Everything filters through the liver for detoxification,” Hoffman said. “Because of this, the liver has an innate capacity to induce immune tolerance. We have learned in other gene therapy studies that it is possible for the liver to make cells tolerant to the gene you are putting in.”
Other research teams across the country are trying to spark immune tolerance to combat multiple sclerosis, too. However those studies involve developing treatments personalized for specific patients. The UF researchers’ work is novel because they hope to develop a technique that could be used on a wide number of patients.
“Everyone has different types of T regulatory cells and receptors,” Hoffman said. “By injecting a gene responsible for a brain protein, we are allowing an individual’s body to make the specific T regulatory cells it needs.
“If it works, this is potentially more clinically feasible, cost-effective and translatable for a large scale.”
Although gene therapy has yet to be used to correct autoimmune disorders such as multiple sclerosis, the foundations for the study are rooted in research Hoffman’s team has performed while studying gene therapy for hemophilia. During these studies, the team was able to induce immune tolerance in mice, and Hoffman hopes the techniques will one day be able to help people with multiple sclerosis, too.
“Will we be able to cure MS? That would be ideal, but our strategy is more likely to result in suppressing the immune response to the nervous system,” he said. “If you suppress the immune response, you will suppress the neurodegenerative effects and hopefully maintain a higher quality of life.”