Neuroscience

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Finding challenges accepted view of MS: Unexpectedly, damaged nerve fibers survive Multiple sclerosis, a brain disease that affects over 400,000 Americans, causes movement difficulties and many neurologic symptoms. MS has two key elements: The nerves that direct muscular movement lose their electrical insulation (the myelin sheath) and cannot transmit signals as effectively. And many of the long nerve fibers, called axons, degenerate. Many scientists believe that axons are doomed once they lose the insulation, but a new study by graduate student Chelsey Smith and former undergraduate Elizabeth Cooksey in the Journal of Neuroscience shows axons can survive for long periods in rats even after losing myelin. "This was the first study to demonstrate long-term axon survival after myelin deterioration," says senior author Ian Duncan, a professor in the School of Veterinary Medicine at the University of Wisconsin-Madison. The mutant rats in the experiment have substantial myelin at first, but by eight weeks the essential myelin insulation is lost. “It was surprising,” says Duncan, an expert in MS pathology. “Nine months is a relatively long period in a rat’s lifetime, and there wasn’t a loss of axons, so the assumption that axons must automatically die without myelin seems incorrect.”

Finding challenges accepted view of MS: Unexpectedly, damaged nerve fibers survive

Multiple sclerosis, a brain disease that affects over 400,000 Americans, causes movement difficulties and many neurologic symptoms. MS has two key elements: The nerves that direct muscular movement lose their electrical insulation (the myelin sheath) and cannot transmit signals as effectively. And many of the long nerve fibers, called axons, degenerate.

Many scientists believe that axons are doomed once they lose the insulation, but a new study by graduate student Chelsey Smith and former undergraduate Elizabeth Cooksey in the Journal of Neuroscience shows axons can survive for long periods in rats even after losing myelin.

"This was the first study to demonstrate long-term axon survival after myelin deterioration," says senior author Ian Duncan, a professor in the School of Veterinary Medicine at the University of Wisconsin-Madison.

The mutant rats in the experiment have substantial myelin at first, but by eight weeks the essential myelin insulation is lost. “It was surprising,” says Duncan, an expert in MS pathology. “Nine months is a relatively long period in a rat’s lifetime, and there wasn’t a loss of axons, so the assumption that axons must automatically die without myelin seems incorrect.”

Filed under MS nerve cells myelin sheath oligodendrocytes nerve fibers neuroscience science

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    Interesting, but the thought of following one study of mice/rats for 9 months….I would go crazy. I get tired of it after...
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