{"id":2053,"date":"2010-10-25T00:00:00","date_gmt":"2010-10-25T07:00:00","guid":{"rendered":"https:\/\/vermont.salk.edu\/news-release\/decoding-the-disease-that-perplexes-salk-scientists-discover-new-target-for-ms\/"},"modified":"2016-01-18T10:08:15","modified_gmt":"2016-01-18T18:08:15","slug":"decoding-the-disease-that-perplexes-salk-scientists-discover-new-target-for-ms","status":"publish","type":"disclosure","link":"https:\/\/www.salk.edu\/de\/news-release\/decoding-the-disease-that-perplexes-salk-scientists-discover-new-target-for-ms\/","title":{"rendered":"Decoding the disease that perplexes: Salk scientists discover new target for MS"},"content":{"rendered":"

LA JOLLA, CA\u2014Scientists are closer to solving one of the many mysteries of multiple sclerosis and other demyelinating diseases, thanks to a recent study conducted at the Salk Institute for Biological Studies. The research revealed a previously unknown connection between two ion channels, which, when misaligned, can cause the many bizarre symptoms that characterize the condition.\n<\/p>\n

\nThe findings, reported in this week’s online edition of the Proceedings of the National Academy of Sciences (PNAS)<\/em>, provide fresh insights into the mechanisms underlying MS and suggest a novel target for therapeutic intervention.\n<\/p>\n

\"axiom\"<\/p>\n

Multiple sclerosis is thought to result when the immune system attacks the myelin sheath that insulates axons, the nerve fibers that conduct electrical impulses to and from the brain and between neurons within the brain. A Salk study identified a key player at the root of the many perplexing symptoms that characterize the disease.<\/p>\n

\nImage: Courtesy of Jamie Simon, Salk Institute for Biological Studies\n<\/p>\n<\/div>\n

\n“Our findings offer an avenue of hope for the many millions of MS patients,” explains Howard Hughes Medical Institute investigator Terrence J. Sejnowski<\/a>, professor and head of the Salk Institute’s Computational Neurobiology Laboratory, who led the study. “We’ve discovered a new target that could be efficacious. This particular pathway or ion channel is a key player in this disease, and we think that manipulating it could have a huge benefit for people suffering from MS.”\n<\/p>\n

\nMultiple sclerosis affects an estimated 400,000 Americans and more than 2.5 million people worldwide. A chronic, often disabling disease that attacks the central nervous system, it is responsible for a baffling range of neurological symptoms, including numbness, tingling, muscle weakness, paralysis, and vision loss.\n<\/p>\n

\nIt is thought to result when the immune system attacks the myelin sheath that insulates axons, the nerve fibers that conduct electrical impulses to and from the brain and between neurons within the brain. Ordinarily, the myelin speeds up the signals the axons transmit, called action potentials.\n<\/p>\n

\nWhen axons lose their insulation, however, either signal conduction fails because the demyelinated axons are unable to generate an impulse, resulting in a loss of sensation, weakness, or blindness, or the axons become hyperexcitable and overcompensate by firing even in the absence of an input, causing twitching.\n<\/p>\n

\nThe first computer model of axonal transmission, developed in the 1950s for the giant axon of the squid, which lacks myelin, tracked positively charged sodium and potassium ions, whose movements across the neuronal membrane generate the necessary electrical signals. Building on that model, Sejnowski and his team included myelin in their own model, then demyelinated one of the sections and incorporated all the changes known to take place as a result.\n<\/p>\n

\n“It’s been known for a long time that the two most important ions in the axon are sodium and potassium,” says Sejnowski. “What we did was use a program that can model every part of the axon by breaking it into little segments so we could we keep track of the ions going in and out of each segment. And what we found really surprised us.”\n<\/p>\n

\nThe vast majority of prior clinical studies had focused on the sodium channel, which is responsible for initiating the action potential, and many of the targets for MS drugs likewise focus on the sodium channel. While enhancing the sodium current did boost the signal in Sejnowki’s model, to everyone’s amazement, it was the ratio of densities between the sodium channel and a previously ignored but ubiquitous voltage-insensitive potassium current called the leak current, which sets the ground state of the neuron, that determines whether neurons can fire properly.\n<\/p>\n

\nIf the sodium level drops, an accompanying drop in the leak current will maintain the signal, whereas if the sodium drops but the leak current doesn’t, signal transmission may fail. Conversely, if the sodium level is too high and the leak current doesn’t increase, a patient may experience twitching. The “safe” zone lies between the two limits.\n<\/p>\n

\n“Trying to influence the balance between the two ion channels is a completely new approach, and drugs that target leak currents could be as important as those targeting the sodium current,” adds Sejnowski. “I think we have a good chance at some point to help MS patients. The first step is to understand what’s going on.”\n<\/p>\n

\n“Our model offers a novel explanation for many of the peculiar and intermittent symptoms that MS patients experience,” says first author Jay S. Coggan, who had studied leak channels in previous work. “The injured axon is continually struggling to maintain order within a functional range. There is danger to the right and left. A variety of perturbations can nudge the axon one way or the other. It makes sense that leak channels might participate in these changes.”\n<\/p>\n

\nIn some instances, for example, their symptoms worsen if they are too warm, but improve if they are cooled off-a phenomenon that correlates to the fact that these channels are temperature-dependent. “If a patient is near one of the boundaries and only marginally ‘safe,’ heating up could cause him or her to cross into the failure zone,” Coggan adds. Temperature, therefore, hints at which boundary the patient is approaching.\n<\/p>\n

\nBeyond MS and demyelinating diseases, insights into the sodium\/leak current have applications to intractable pain-a field that Sejnowski’s group will be investigating next.\n<\/p>\n

\nIn addition to Sejnowski, Coggan and Thomas Bartol of the Salk Institute, Steve Prescott, an assistant professor in the Department of Neurology at the University of Pittsburgh contributed to the study.\n<\/p>\n

\nThe work was funded by the Howard Hughes Medical Institute.\n<\/p>\n

\n\u00dcber das Salk Institute for Biological Studies:<\/strong>
\nDas Salk Institute for Biological Studies ist eine der weltweit f\u00fchrenden Institutionen f\u00fcr Grundlagenforschung, an der international renommierte Fakult\u00e4tsmitglieder grundlegende Fragen der Biowissenschaften in einem einzigartigen, kollaborativen und kreativen Umfeld untersuchen. Mit dem Fokus auf Entdeckungen und die Ausbildung zuk\u00fcnftiger Forschergenerationen leisten Salk-Wissenschaftler bahnbrechende Beitr\u00e4ge zu unserem Verst\u00e4ndnis von Krebs, Alterung, Alzheimer, Diabetes und Infektionskrankheiten durch die Untersuchung von Neurowissenschaften, Genetik, Zell- und Pflanzenbiologie sowie verwandten Disziplinen.\n<\/p>\n

\nDie Leistungen der Fakult\u00e4t wurden mit zahlreichen Auszeichnungen gew\u00fcrdigt, darunter Nobelpreise und Mitgliedschaften in der National Academy of Sciences. Das 1960 vom Polio-Impfstoff-Pionier Dr. Jonas Salk gegr\u00fcndete Institut ist eine unabh\u00e4ngige gemeinn\u00fctzige Organisation und ein architektonisches Wahrzeichen.\n<\/p>\n

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