Stressful situations help explain why women have a higher risk of Alzheimer’s disease when compared to men.
In the brains of females’ mice, stress was linked to increased levels of the Alzheimers protein amyloid. A molecular pathway that is active in brain cells of female mice has been identified. The findings, published in Brain, add to //a growing collection of evidence that sex matters in health and disease. From cancer to heart disease to arthritis, scientists have found differences between males and females that could potentially affect how men and women respond to efforts to prevent or treat chronic diseases.
‘Stress affects women’s brains differently than men’s, and these variations explain the sex disparity in Alzheimer’s disease.’
“How women respond to stress versus how men respond to stress is an important area of research that has implications for not just Alzheimer’s disease but other conditions, too,” said co-corresponding author Carla M. Yuede, PhD, an associate professor of psychiatry. “In recent years, the National Institutes of Health (NIH) has prioritized understanding sex differences in medicine. Stress is one area in which you can clearly see a difference between males and females. This study shows that reducing stress may be more beneficial for women than men, in terms of lowering the risk of Alzheimer's disease.”
Stress: Key Trigger for Alzheimer's Disease
Stress falls into the category of socioeconomic risk factors, along with factors such as depression and social isolation, that together account for an estimated 8% of the risk of developing Alzheimer’s. That risk calculation, however, doesn’t take gender into account. Women consistently report higher levels of stress than men, and stress affects women’s bodies differently than men’s in many ways, such as cardiovascular health, immune responses and other issues.To find out, they measured levels of amyloid beta — a key Alzheimer’s protein — in the brains of mice every hour for 22 hours, beginning eight hours before the mice experienced stress. The experience was equally stressful for male and female mice, as measured by the levels of stress hormones in their blood. But the responses in their brains were not the same.
In female mice, amyloid beta levels rose significantly within the first two hours and stayed elevated through the end of the monitoring period. In male mice, brain amyloid levels did not change overall, although about 20% of them did show a delayed and weak rise in amyloid levels.
Further experiments revealed that the difference comes down to a cellular stress response pathway in brain cells. Stress causes the release of a hormone known as corticotropin releasing factor. Neurons from female rodents take up the stress hormone, triggering a cascade of events that results in increasing levels of amyloid beta in the brain. In contrast, neurons from male rodents lack the ability to take up the stress hormone. It is not known whether there are similar sex differences in how human neurons take up stress hormones.
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Source-Eurekalert