A Brain Protein Could Put The Brakes on Alzheimer's

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  • A protein in the brain called TOM-1 may be related to Alzheimer's disease, as it helps to regulate a major part of the inflammatory response.

  • TOM-1 levels are low in brains that have Alzheimer's disease.

  • In mouse models, reducing the amount of TOM-1 led to increased inflammation and cognitive problems, while restoring TOM-1 reversed the problems.

  • TOM-1 is likened to the brakes of a car, and the brakes aren't working properly in people who have Alzheimer's disease.

This article was published on EurekAlert.org.

University of California, Irvine biologists blazing new approaches to studying Alzheimer's have made a major finding on combating inflammation linked to the disease. The School of Biological Sciences researchers' discovery about the role of a protein called TOM-1 heralds a shift toward examining the molecular underpinnings of Alzheimer's processes. Their paper has just been published in Proceedings of the National Academy of Sciences.

"Scientists have known for a long time that inflammation is a driver of Alzheimer's disease, but inflammation is complex and involves many factors," said School of Biological Sciences Dean Frank M. LaFerla, Ph.D., whose laboratory conducted the research. "That's why we decided to look at TOM-1."

The protein helps to regulate a key component of the inflammatory response. "We were interested in TOM-1 because its levels are low in the Alzheimer's brain and in the brains of Alzheimer's rodent models," said Alessandra C. Martini, Ph.D., the paper's first author and a postdoctoral researcher who worked with Dean LaFerla. "However, its specific role in the disease has largely been unexplored."

The scientists discovered that reducing the amount of TOM-1 in Alzheimer's rodent models increased pathology, which included increased inflammation, and exacerbated cognitive problems associated with the disease. Restoring TOM-1 levels reversed those effects.

"You can think of TOM-1 as being like the brakes of a car and the brakes aren't working for people with Alzheimer's," Dean LaFerla said. "This research shows that fixing the brakes at the molecular level could provide an entirely new therapeutic avenue. With millions of people affected by Alzheimers and the numbers growing, we must research a diverse portfolio of approaches so we can one day vanquish this terrible disease."

The study was published in Proceedings of the National Academy of Sciences in September 2019.

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