Imbalances in Brain Microbiota May be Behind Demyelination in MS, Study Says

Imbalances in Brain Microbiota May be Behind Demyelination in MS, Study Says

Alterations in microorganisms in the brains of multiple sclerosis (MS) patients could contribute to underlying disease mechanisms, including demyelination, according to researchers.

The study, “Brain microbiota disruption within inflammatory demyelinating lesions in multiple sclerosis,” was published in the journal Scientific Reports.

It is widely recognized that the balance of resident microorganisms (the microbiota) in different tissues is important to both health and disease. Imbalances in organ-specific microbiota are commonly associated with disease.

In MS, inflammatory damage to myelin, the protective layer covering nerve fibers in the brain and spinal cord, affects the white matter, inducing characteristic MS symptoms. But it is still not clear why such demyelination happens. Some studies have shown that, in part, bacteria may cause this process.

Researchers here investigated bacterial quantity and genetic diversity in autopsy brain samples from patients with MS, and compared them with age- and sex-matched samples from people without MS, which served as controls.

Tested samples of cerebral white matter presented low bacterial burden and replication, compared to active bacterial infections in other tissues, they reported. This is, however, not surprising given the sensitivity of the brain to invaders like bacteria and its defenses.

After identifying the microbiota present in all samples, researchers found that a particular group of bacteria, known as Proteobacteria, was more common in white matter samples from MS patients compared to those from non-MS individuals.

In-depth analysis of the bacterial genetic information revealed a “restricted diversity” of Proteobacteria in white matter samples of progressive MS patients, that was linked with increased inflammatory gene expression. Samples from relapsing-remitting MS patients showed a relatively broader range of bacterial species.

Researchers also found that the presence and type of bacteria in the brain was associated with host immune response. Importantly, the detection of a specific bacterial protein, called bacterial peptidoglycan (PGN), correlated with demyelination and neuroinflammation in MS brain samples, which may help to explain disease development and progression.

The team also found that PGN accumulated within demyelinating MS lesions in response to the host immune system. Inflammatory demyelination, they concluded, can be associated to a tissue-specific dysbiosis (microbiota imbalance) in MS.

“Principal component analysis revealed that demyelination, PGN and inflammatory gene expression accounted for 86% of the observed variance,” the researchers wrote. “Thus, inflammatory demyelination is linked to an organ-specific dysbiosis in MS that could contribute to underlying disease mechanisms.”

By Alice Melao

Multiple Sclerosis News Today

CMSC Disclaimer

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.

Elizabeth Porco

Comments are closed.

CMSC provides leadership in clinical research and education; develops vehicles to share information and knowledge among members; disseminates information to the health care community and to persons affected by MS.

Contact Us
Contact Us
I have a question about
First
Last

Feel Free To contact Us
Lorem ipsum dolor sit amet, consectetur adipiscing elit. Nam molestie, tellus id pellen tesque feugiat, sem sem cursus orci, a placerat ante ante nec massa. consectetuer adipiscing elit.

+1-222-333-4444

New York, NY 10123 USA

Mon - Sat 9:00 AM