A novel mechanism has been discovered by scientists, through which the brain could get more reluctant to function, as we age. Although previous study suggests cognitive decline can be detectable before 50 years of age. It is not fully understood why the brain's cognitive functions such as memory and speech decline as we age.
Now, a new study led by neuroscientists at the University of Bristol has identified a novel cellular mechanism underpinning changes to the activity of neurones, which may underlie cognitive decline during normal healthy aging.
The brain largely uses electrical signals to encode and convey information. Modifications to this electrical activity are likely to underpin age-dependent changes to cognitive abilities.
The researchers, led by Professor Andy Randall and Dr Jon Brown from the University's School of Physiology and Pharmacology, examined the brain's electrical activity by making recordings of electrical signals in single cells of the hippocampus, a structure with a crucial role in cognitive function.
In this way they characterised what is known as "neuronal excitability" - this is a descriptor of how easy it is to produce brief, but very large, electrical signals called action potentials; these occur in practically all nerve cells and are absolutely essential for communication within all the circuits of the nervous system.
Action potentials are triggered near the neurone's cell body and once produced travel rapidly through the massively branching structure of the nerve cell, along the way activating the synapses the nerve cell makes with the numerous other nerve cells to which it is connected.
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"Much of our work is about understanding dysfunctional electrical signalling in the diseased brain, in particular Alzheimer's disease. We began to question, however, why even the healthy brain can slow down once you reach my age," said Professor Randall, Professor in Applied Neurophysiology.
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"Also by identifying sodium channels as the likely culprit for this reluctance to produce action potentials, our work even points to ways in which we might be able modify age-related changes to neuronal excitability, and by inference cognitive ability," Professor Randall added.
The study was published this week in the journal Neurobiology of Aging.
Source-ANI