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Exercise can prevent and delay Alzheimer’s Disease. But it has been unclear how this happens.
Now,
a team of researchers from The University of Nottingham has identified a stress
hormone, corticotrophin-releasing factor
or CRF, produced during moderate exercise that may slow down the
progression of memory loss in people with Alzheimer's disease.
The
work, funded by Research into Ageing (Age UK) and the University and published
in the Journal of Alzheimer's Disease, may also explain why people who are
susceptible to stress are at more risk of developing the disease.
Protective
effect of CRF
The Nottingham team, led by Dr
Marie-Christine Pardon in the School of Biomedical Sciences, has discovered
that the stress hormone CRF -- may have a protective effect on the brain from
the memory changes brought on by Alzheimer's disease.
CRF is most associated with producing
stress and is found in high levels in people experiencing some forms of anxiety
and depressive diseases. Normal levels of CRF, however, are beneficial to the
brain, keeping the mental faculties sharp and aiding the survival of nerve
cells. Unsurprisingly then, studies have shown that people with Alzheimer's
disease have a reduced level of CRF.
The researchers used an experimental
drug to prevent the hormone from binding to a brain receptor called CRFR1 in
mice with Alzheimer's disease that were free from memory impairments, therefore
blocking the effects of the hormone. They discovered that the mice had an
abnormal stress response with reduced anxiety but increased behavioural
inhibition when confronted by a stressful situation -- in this case being
placed in a new environment -- and this is was due to the abnormal functioning
of the CRFR1. This abnormal stress response before the onset of symptoms may
explain why people susceptible to stress are more at risk of developing
Alzheimer's.
Memory
enhancing effect of CRF
Dr Pardon and her team also found that
interrupting the hormone from binding on to the CRFR1 receptor blocked the
improvement of memory normally promoted by exercise. However, in mice with
Alzheimer's a repeated regime of moderate exercise restored the normal function
of the CRF system allowing its memory enhancing effects. The results are in
line with the idea that regular exercise is a means of improving one's ability
to deal with everyday stress in addition to keeping mental abilities keen.
Finally, their study showed that the
switching on of this particular brain receptor during exercise increased the
density of synapses, which makes the connection between nerve cells, the loss
of which is thought to be responsible for the early memory loss seen in
Alzheimer's patients.
Dr Pardon said: "This is the first
time that researchers have been able to identify a brain process directly
responsible for the beneficial effects of exercise in slowing down the
progression of the early memory decline characteristics of Alzheimer's disease.
"Overall, this research provides further
evidence that a healthy lifestyle involving exercise slows down the risk of
Alzheimer's disease and opens avenues for the new interventions targeting
the altered CRFR1 function associated with the early stages of the
disease."
###
The
above story is based on the January 23, 2013 news release by University of Nottingham.
This
research, funded by Research into Ageing (Age UK) and the University, has been published
in the Journal of Alzheimer's Disease:
Scullion
GA, Hewitt KN, Pardon MC. Corticotropin-releasing
factor receptor 1 activation during exposure to novelty stress protects against
Alzheimer's disease-like cognitive decline in AβPP/PS1 mice. J Alzheimers Dis. 2013;34(3):781-93.
doi: 10.3233/JAD-122164.
Click
HERE for the full text
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