Clinical Topics & News

Interview with Andrew Pachner, MD, about the molecular processes of multiple sclerosis


 

Andrew R. Pachner, MD is the Murray B. Bornstein professor of neurology at Geisel School of Medicine at Dartmouth and director of the Multiple Sclerosis Center at Dartmouth-Hitchcock Medical Center. We spoke to Dr. Pachner about his research into the molecular processes of multiple sclerosis (MS) and the potential impact on patient management.

What do we know about the molecular processes behind relapsing-remitting and progressive MS?

DR. PACHNER: The progress--in terms of molecules--has not been rapid in the field of MS. The only molecular biomarker we use in practice is oligoclonal bands or other measures of immunoglobulin production in the nervous system, and that biomarker was described in 1942. So, it has been a long time since we have seen a relevant molecule that we can use clinically.

But there has been a lot of progress in the general field of neuroinflammation. MS is one of a large number of diseases that results in neuroinflammation and demyelination.

One thing we have learned over time is that there are many different subtypes of MS. They probably have some shared molecular processes, but they also are likely to have divergent molecular processes.

Over the past 5 to 10 years, researchers have been interested in trying to dissect some of the molecular aspects of MS to identify biomarkers that can, in turn, differentiate subtypes of MS. This will help to identify different ways of treating MS that are optimal for individual patients. It is clear that each patient is quite different and unlikely to be standardized in the way they respond to treatment.

The degree to which relapsing-remitting and progressive MS are differentiated on the molecular level is dependent on how much influence there is of the immune system in the periphery. When MS first starts in a patient, the brain has either no or a very primitive immune system, and then over time it changes, and it becomes much more immune-oriented and populated by immune cells and molecules. So, there’s a trend over time of the central nervous system becoming increasingly populated by immune cells and able to make immune molecules.

What has your recent research on murine models representing these disease patterns shown?

DR. PACHNER: Even though in humans there is a continuum from relapsing remitting to progressive, it is not like they are completely separate. Frequently in the middle of relapsing-remitting disease there is some progression over time.

In mouse models, we like things to be very clear and separate. We try to make things as simple as possible because of the complexity of the nervous and immune systems.

The simple model for the relapsing-remitting disease is experimental autoimmune encephalomyelitis (EAE), the most commonly studied model of neuroinflammation.

For the progressive form of MS, we use the Theiler’s virus model, which is a type of virus called the picornavirus that is injected into the brain of mice resulting in a slowly progressive, chronic viral infection that looks very much like progressive MS.

In EAE, the disease is induced by presenting an antigen to the peripheral immune system, allowing cells from the peripheral immune system to enter into the central nervous system. It is a manifestation of inflammation and the immune response is in the periphery. In the Theiler’s model, it is a localized process within the central nervous system because the virus is injected directly into the brain.

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