Mouse model shows how chronic demyelination may cause seizures in MS patients

Multiple sclerosis (MS) is an autoimmune disease of the central nervous system that affects nearly 2.3 million people worldwide. MS is triggered when the immune system attacks the protective covering around nerve fibers, called the myelin sheath. The "demyelination" that follows damages nerve cells and causes impaired exchange of information between the brain and body as well as within the brain itself.

As the protective sheath -- best imagined as the insulating material around an electrical wire -- wears off, nerve signals slow down or stop. The result is impairment to a patient's vision, sensation, and use of limbs depending where the damage takes place. Permanent paralysis occurs when nerve fibers are destroyed by the disease.

As though this were not enough, MS patients are three to six times more likely to develop seizures -- abnormal hyperactivity of nerve cells -- compared to the rest of the population. However, despite increased occurrence of seizures among MS patients, little research has been done to probe why they happen.

Using a mouse model, a team of scientists at the University of California, Riverside has found for the first time that chronic demyelination is closely linked to, and is likely the cause of, these seizures. , the researchers also note that certain neurons in the brain, called "parvalbumin interneurons," which are important for keeping hyperactivity down, are modified and lost when extensive demyelination occurs in the brain's cortex and hippocampus.

"Demyelination causes damage to axons and neuronal loss, specifically parvalbumin interneurons are lost in mice, hyperactivity is no longer down but up, and this could be a cause of seizures," said Seema Tiwari-Woodruff, an associate professor of biomedical sciences in the UC Riverside School of Medicine, whose laboratory authored the research. "It's very likely this is what is occurring in those patients with MS who are experiencing seizures."

In the lab, Tiwari-Woodruff and her team induced demyelination in mice by feeding them a diet that contained cuprizone, a copper-binding substance that causes damage to oligodendrocytes -the brain cells that produce myelin. After nine weeks of feeding them cuprizone, the majority of mice started having seizures.

"Without myelin, axons are vulnerable," Tiwari-Woodruff said. "They develop blebs - ball-like structures that hinder transport of important proteins and conduction of electrical signals. In some instances, significant axon damage can lead to neuronal loss. In both MS and our mouse model, parvalbumin interneurons are more vulnerable and likely to die. This causes the inhibition to be removed and induce seizures. Thus axonal and neuronal survival may be directly tied to the trophic support provided by myelin."

In another study, after nine or twelve weeks, the researchers stopped feeding the mice the cuprizone diet. Oligodendrocytes began to repopulate the demyelinated areas and remyelinate the intact but myelin-stripped axons. Future studies will assess seizure activity with remyelination.

"Does remyelination affect seizure activity? Could we accelerate the remyelination with drugs? Can we thus provide some relief for MS patients? We are interested in addressing these questions," Tiwari-Woodruff said.

Her team was recently awarded a pilot grant from the National Multiple Sclerosis Society to compare postmortem brain tissue from MS patients with seizures to those without to understand the cellular basis of seizures in MS. Their findings will also be used to check how well the cuprizone mouse model reproduces the changes seen in humans.

"We want to know if these tissues show what we are seeing in our mouse model," Tiwari-Woodruff said. "Our preliminary data in postmortem tissue show considerable similarity between the two. We now have a mouse model with which we can work to test and suggest some therapeutic cures. When developed, such drugs, which would be aimed at reducing hyperactivity to reduce the incidence of seizures, could also be extended to epilepsy patients."

Comments

  1. Lynnie Heal Lynnie Heal United Kingdom says:

    MS has had billions  donated  to the  MS  society  for years . A cure  will  never happen  when  billions upon billions  is being made  out of   MS  its a  NO brainer. NO  MS  drugs  have or  will  ever cure  MS  either   as  yet again billions upon billions being made.

  2. Sandra Narten Sandra Narten United States says:

    Enough with suppressing the immune system, focus on remyelination.  Give us our lives back first, then work on a cure, if there is one.  Depleting our B cells is just wrong.  You will need them someday and then what?  I've been in a wheelchair for 7-8 years and that alone has caused more health issues than the MS.  From the research I've done, this route would be quicker, safer, and maybe even cheaper.

The opinions expressed here are the views of the writer and do not necessarily reflect the views and opinions of News Medical.
Post a new comment
Post

While we only use edited and approved content for Azthena answers, it may on occasions provide incorrect responses. Please confirm any data provided with the related suppliers or authors. We do not provide medical advice, if you search for medical information you must always consult a medical professional before acting on any information provided.

Your questions, but not your email details will be shared with OpenAI and retained for 30 days in accordance with their privacy principles.

Please do not ask questions that use sensitive or confidential information.

Read the full Terms & Conditions.

You might also like...
Elevated antibody responses to Epstein-Barr virus linked to increased risk of multiple sclerosis