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CMSC INforMS: #CMSC16 – Metabolism in MS and the Role of Mitochondrial Dysfunction

Thursday, June 09, 2016  
Posted by: Elizabeth Porco
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One June 3, a workshop titled “Metabolism in MS and Related Conditions” was presented at the 2016 Annual Meeting of the Consortium of Multiple Sclerosis Centers (CMSC), held June 1-4 in National Harbor, Maryland. One of the speakers was Dr. David Sheikh-Hamad, professor of medicine-nephrology at Baylor College of Medicine in Houston, Texas, who discussed the role played by mitochondria in multiple sclerosis (MS) pathogenesis, and other central nervous system (CNS) conditions in a talk entitled “Mitochondrial Dysfunction in MS and Related CNS Diseases.”

Sheikh-Hamad began by explaining that the inflammatory environment, characteristic of diseases such as MS, leads to the formation of chemically reactive oxygen species (ROS), a natural byproduct of the normal metabolism of oxygen. He also said “there is evidence for a primary contribution of oxidative stress to neuronal death in neurodegenerative and neuroinflammatory disorders.”

As for mitochondria, the powerhouses of the cell where the energy for the body is produced, he noted that “several lines of evidence suggest mitochondrial dysfunction is present in patients with MS and EAE mouse models.” EAE stands for experimental autoimmune encephalomyelitis, and is a condition in mice that mimics MS in humans. This mitochondrial dysfunction has been associated with “mitochondrial DNA alterations, mitochondrial structural changes, defective mitochondrial DNA repair mechanisms, changes in mitochondrial gene expression, abnormal mitochondrial enzyme activities, increased free radical production, and oxidative damage,” Sheikh-Hamad said.

He discussed results from a study showing that MS patients have a decreased expression of mitochondrial genes in their brain motor cortex compared to healthy controls, and a decreased expression of mitochondrial proteins in MS lesions and muscle.

Sheikh-Hamad and his team are working on a protein called stanniocalcin-1 (STC1), which is known to inhibit inflammation. The team found that STC1 can decrease superoxide (a type of ROS) generation in macrophages (important white blood cells) through the induction of UCP2 (uncoupling protein-2).

Abnormalities in the UCP2  gene have previously been reported to be linked to an increased susceptibility for MS. According to Sheikh-Hamad, UCP2 is known to “reduce mitochondrial membrane potential and ROS production.”

The hypothesis that Sheikh-Hamad and his team are exploring is that STC1 can suppress superoxide generation and inhibit macrophages, offering a cytoprotective mechanism and an anti-inflammatory response. The team also observed that STC1 plays a protective role for the brain during ischemia (stroke).

The research team suggests that STC1, due to its protective and anti-inflammtory properties, and ability to suppress ROS formation, “may potentially be of benefit in MS.” More studies are required to explore this hypothesis.

By Patricia Silva, PhD

Multiple Sclerosis News Today

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The industry news information and articles are for informational purposes only, and are not intended to represent any trends, partnerships, commitments, or research of the Consortium of MS Centers or any of it's members in any way whatsoever, nor should any party be libel in any way to the reader or to any other person, firm or corporation reading this industry news section. Although the CMSC site includes links providing direct access to other Internet sites, CMSC takes no responsibility for the content or information contained on those other sites, and does not exert any editorial or other control over those other sites. CMSC is providing information and services on the Internet as a benefit and service in furtherance of CMSC's nonprofit and tax-exempt status. CMSC makes no representations about the suitability of this information and these services for any purpose.


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