Restricting calories found to increase lifespan
Previous studies have found that restricting food before the point of starvation can robustly extend the lifespan of more than 20 species of animals, including primates. It is not known how or why this phenomenon occurs, but it was the basis for the study that was carried out at Florida Atlantic University.
With the aid of a tiny worm called C. elegans, the researchers were the first to demonstrate how autophagy, a process where cells “eat” the waste products they produce through basic metabolism, works with food absorption through the gastrointestinal tract (GI) and food smell to influence aging via a restricted diet.
The researchers found that autophagy is an essential component of the neuroendocrine pathway that allows sensory neurons and nutrient levels to work together to influence lifespan.
This new discovery could support future research into the human aging process, potentially helping to extend lifespans and develop treatments for diseases like obesity.
“We found that autophagy works in both the brain and the intestine to mediate communication between the GI tract and the brain and in turn to the GI tract. We were specifically looking for how this interaction influences aging,” said Kailiang Jia, PhD, a corresponding author of the study and associate professor of biological sciences in FAU’s Charles E. Schmidt College of Science.
Calories and olfactory simulation are important factors
Researchers say both the number of food calories and the smell of food may influence the brain and the gastrointestinal tract, and therefore affect the aging of cells through diet restriction.
Previous experiments putting fruit flies on restricted diets resulted in an increased lifespan. However, when these flies were allowed to smell the food, their life expectancy was not as long as it was without smelling it.
“We now know which molecules are responsible for the aging process and autophagy is one of these processes. So potentially, autophagy in the olfactory neuron [responsible for smell], at least in the worm, can sense the food smell and then secrete neuron signals, which in turn influence the aging process,” said Jia.
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