Elevated blood sugar can rapidly increase levels of amyloid beta, a key component of brain plaques in Alzheimer’s patients, a new study shows.
The buildup of plaques is thought to be an early driver of the complex set of changes that Alzheimer’s causes in the brain.
“Our results suggest that diabetes, or other conditions that make it hard to control blood sugar levels, can have harmful effects on brain function and exacerbate neurological conditions such as Alzheimer’s disease,” says Shannon Macauley, the study’s lead author and a postdoctoral research scholar at Washington University School of Medicine in St. Louis. “The link we’ve discovered could lead us to future treatment targets that reduce these effects.”
People with diabetes can’t control the levels of glucose in their blood, which can spike after meals. Instead, many patients rely on insulin or other medications to keep blood sugar levels in check.
To understand how elevated blood sugar might affect Alzheimer’s disease risk, the researchers infused glucose into the bloodstreams of mice bred to develop an Alzheimer’s-like condition.
In young mice without amyloid plaques in their brains, doubling glucose levels in the blood increased amyloid beta levels in the brain by 20 percent.
When the scientists repeated the experiment in older mice that already had developed brain plaques, amyloid beta levels rose by 40 percent.
Overactive Neurons
Looking more closely, the researchers showed that spikes in blood glucose increased the activity of neurons in the brain, which promoted production of amyloid beta. One way the firing of such neurons is influenced is through openings called KATP channels on the surface of brain cells. In the brain, elevated glucose causes these channels to close, which excites the brain cells, making them more likely to fire.
Normal firing is how a brain cell encodes and transmits information. But excessive firing in particular parts of the brain can increase amyloid beta production, which ultimately can lead to more amyloid plaques and foster the development of Alzheimer’s disease.
To show that KATP channels are responsible for the changes in amyloid beta in the brain when blood sugar is elevated, the scientists gave the mice diazoxide, a glucose-elevating drug commonly used to treat low blood sugar. To bypass the blood-brain barrier, the drug was injected directly into the brain.
A New Avenue
The drug forced the KATP channels to stay open even as glucose levels rose. Production of amyloid beta remained constant, contrary to what the researchers typically observed during a spike in blood sugar, providing evidence that the KATP channels directly link glucose, neuronal activity, and amyloid beta levels.
Macauley and her colleagues in the laboratory of David M. Holtzman, a professor and head of the neurology department, are using diabetes drugs in mice with conditions similar to Alzheimer’s to further explore this connection.
“Given that KATP channels are the way by which the pancreas secretes insulin in response to high blood sugar levels, it is interesting that we see a link between the activity of these channels in the brain and amyloid beta production,” Macauley says. “This observation opens up a new avenue of exploration for how Alzheimer’s disease develops in the brain as well as offers a new therapeutic target for the treatment of this devastating neurologic disorder.”
The researchers also are investigating how changes caused by increased glucose levels affect the ability of brain regions to network with each other and complete cognitive tasks.
The National Institutes of Health, National Science Foundation, and the JPB Foundation funded the research, which appears in the Journal of Clinical Investigation.
Source: Washington University in St. Louis
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Thanks for visiting InnerSelf.com, where there are 20,000+ life-altering articles promoting "New Attitudes and New Possibilities." All articles are translated into 30+ languages. Subscribe to InnerSelf Magazine, published weekly, and Marie T Russell's Daily Inspiration. InnerSelf Magazine has been published since 1985.
