Although Alzheimer's is by far the most common form of dementia, its underlying mechanisms aren't fully understood, and there are currently no treatments to stop its progression.
A study, published in Nature Communications, homes in on the role of RNA molecules involved in synaptic transmission -- the process through which neurons communicate with each other. In the brain tissue of Alzheimer's patients, the RNAs that encode synaptic proteins are degraded more rapidly than in healthy brain cells, the researchers found. They also discovered that a protein that helps stabilize these RNAs was less abundant in the neurons of Alzheimer's patients.
Taken together, these findings indicate that inadequate levels of the protein, known as RBFOX1, may be a factor in the faulty connections that are a hallmark of Alzheimer's disease, says senior author of the paper.
Human cells produce thousands of different types of RNAs to carry genetic information. RNAs also decay constantly, and the balance between production and degradation determines how much of a given RNA is present in the cell. Yet scientists know relatively little about how RNA decay is controlled, largely because methods of measuring degradation have been expensive and not applicable to human tissues.
Previous research by the authors had shown that RNA degradation is involved in different human diseases. Most of those findings came from studies in cell line models of diseases, however. "We wanted to directly measure the RNA degradation rate in human tissues, but available methods weren't able to do that," senior author explains. So his team hit on a way to get around that problem. "We realized that by modeling the process of RNA production and decay, we could devise a mathematical method to calculate RNA degradation using existing genomics technologies."
To test their new approach, the researchers measured the rate of RNA degradation using a conventional method as well as their mathematical method. The two results matched up, validating the mathematical framework.
Authors then applied the mathematical method to analyze publicly available data on the brain tissues of people who died from Alzheimer's. They also analyzed brain tissues from people who didn't suffer from Alzheimer's. Comparing those two groups revealed the rapid rate of RNA degradation and short supply of RBFOX1 protein in the Alzheimer's patients.
"There's still a lot to learn about the role of RNA degradation in Alzheimer's and other diseases," senior author says. "For example, why is there a reduction of RBFOX1 in Alzheimer's? Is the reduced amount of this protein a risk factor, or a feature of the later stages of the disease? And can we restore at least part of the normal function of the neurons by controlling the activity of RBFOX1?"
http://www.mcgill.ca/newsroom/channels/news/new-mechanism-detected-alzheimers-disease-276135
https://www.nature.com/articles/s41467-017-00867-z
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