Alzheimer`s Disease: Activity Generates New Nerve Cells For Old Mice


Activity Generates New Nerve Cells For Old Mice – Study Supports Link Between Active Life And Lower Risk Of Neurodegenerative Disease

Active older people seem to have a lower risk of certain neurological disorders such as Alzheimer`s disease. A study published May 22 in the on-line edition of the Annals of Neurology, the research publication of the American Neurological Association, demonstrates how this increased activity might protect the brain.

Researchers in Germany and the United States collaborated to show that older mice who live in an enriched environment generate–and keep–higher numbers of new nerve cells linked to memory functions.

“Our study suggests that, in mice, we can reduce the effects of aging on the brain with a sustained active and challenging life, even if this stimulation is only begun in middle age,” said lead author Gerd Kempermann, M.D., a researcher at the Max Delbruck Center for Molecular Medicine in Berlin, Germany.

Kempermann advises caution in extrapolating animal data to humans but is hopeful that these results are relevant also for humans.

“Activity will certainly do no harm and most likely benefit people if they use our results as a motivation to be more active. They might even do something good for the nerve cells that are involved in learning and memory processes,” said Kempermann.

The report links two separate lines of research. The first is a host of studies in recent years showing that people who are more active in middle and later years, either intellectually or physically, are not as susceptible to cognitive decline or neurodegenerative disorders such as Alzheimer`s disease.

The second line of research has revolved around the hippocampus, a structure in the brain critical for normal cognitive functions and the storage of new memories. The hippocampus is one of the few brain areas that continually generate new nerve cells in adults, leading scientists to speculate that they could counteract the negative effects of normal aging–and possibly even Alzheimer`s and other disorders–by stimulating this regenerative process.

Previous studies have shown that exposing mice to an “enriched” environment increases production of hippocampal nerve cells. This effect occurs in old mice as well as young. The current study sought to determine whether this production can be sustained over a long period in middle and later life, and whether there are any corresponding effects on mental abilities.

Kempermann and colleagues housed mice in one of two ways: in a standard small, bare cage shared with a few other mice, or in an “enriched” environment consisting of a large cage with plastic tunnels, running wheel, and other objects, shared with many other mice. The enriched environment was also rearranged periodically.

The mice lived this way between the ages of 10 and 20 months, middle to old age in the average mouse life span of 24 months.

Remarkably, at the end of this 10 month period, the old mice in the enriched environment were generating 5 times as many new hippocampal nerve cells as the control mice in the standard, unchanging environment. This finding shows that the activity can have a sustained effect, even on older animals.

The animals in the enriched environment also showed significant improvements over the controls on various behavioral tests. When placed in a new environment, they explored and then adapted to the environment more quickly than control mice. In a standard learning test, they also outperformed the controls.

“It is not clear how far the amazing regeneration of the hippocampus can be used to treat disorders that have already done structural damage. It is likely that there is some capacity for this, but nobody knows how this might be achieved,” said Kempermann.

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