NIH awards University of Chicago $1.5 million to study novel therapy for multiple sclerosis

Researchers from the University of Chicago have been awarded a five-year, $1.5 million grant from the National Institutes of Health to develop stimulated dendritic cell-derived exosomes that show remarkable promise as a treatment for multiple sclerosis and other neurological diseases involving loss of myelin, the insulation around nerve fibers.

Exosomes produced in the blood appear to play a causal role in the protective effects of regular exercise and learning, collectively known as “environmental enrichment,” on the brain. These exosomes contain specific microRNAs that promote myelination of aging brains as well as brains damaged by multiple sclerosis, modeled in animal brain tissues.

Based on this discovery, the Kraig lab at the University of Chicago is exploring the possibility of using cultured dendritic cells to recreate this effect. Doing so will open new research opportunities for treatment of disorders that occur with a loss of myelin.

Led by Richard Kraig, the William D. Mabie Professor in the Neurosciences, the research project is part of the Extracellular RNA Communication program, which aims to better understand extracellular RNA. This new initiative is supported by the NIH Common Fund, which funds high-impact, trans-NIH projects that have the potential to dramatically affect biomedical research over the next decade.

The Kraig project focuses on exosomes—small lipid vesicles that carry protein, RNA and, importantly, non-coding extracellular microRNA, which are thought to enable cell-to-cell communication throughout the body.

Kraig and his team, which includes Aya Pusic and Kae Pusic, discovered that dendritic cells, professional antigen presenting cells of the immune system, can be stimulated by factors released during environmental enrichment to produce exosomes containing microRNAs that improve brain health.

When applied to cultured brain tissue or administered nasally to live animals, these dendritic cell-derived exosomes significantly increased baseline levels of myelin, the protective sheath around neurons that is damaged in multiple sclerosis. Crucially, exosome administration also improved the recovery of demyelinated nerve cells, which serve as a model for multiple sclerosis.

“All evidence suggests these exosomes can be crafted into a novel therapy to treat multiple sclerosis,” Kraig said. “The NIH Common Fund grant allows us to pursue the development of this promising discovery, while simultaneously characterizing its basic mechanisms.”

Dendritic cell-derived exosomes have no known toxic effects, can cross the blood-brain barrier without use of an additional delivery vehicle and are scalable for mass production through laboratory-cultured dendritic cells. These traits make them an extremely promising treatment for multiple sclerosis and many other neurodegenerative diseases that involve loss of myelination, such as traumatic brain injury. They also may be useful in slowing the degeneration that occurs with normal aging.

The Kraig lab will investigate the underlying biological mechanisms and functions of the extracellular microRNAs contained in stimulated dendritic cell-derived exosomes. In addition, the team will study a promising link between these exosomes, reduced oxidative stress and increased antioxidant levels seen in treated brains—effects they hope also will lead to potential therapeutics for neurological diseases. 

“We believe that we have identified a naturally occurring mechanism by which increased exercise and learning improves brain health through myelination,” said Kraig. “Importantly, we have also discovered a way to mimic this nutritive effect through the use of cultured dendritic cell-derived exosomes containing specific microRNAs.”

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Richard Kraig
aging rat sequence

Prof. Richard Kraig leads the University research lab whose research on myelin is being funded by the NIH Common Fund.

This illustration depicts the process of exosome myelination caused by exercise.

Courtesy of Kraig Lab

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