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Protein that
kills cells also important for memory
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[March 10, 2007]
CHAMPAIGN -- A protein known primarily for its
role in killing cells also plays a part in memory formation,
researchers at the University of Illinois at Urbana-Champaign
report. Their work exploring how zebra finches learn songs could
have implications for treatment of neurodegenerative conditions such
as dementia and Alzheimer's disease.
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When activated,
the enzyme caspase-3 triggers a synaptic process essential for
memory storage, according to Graham R. Huesmann and David F. Clayton
of the Department of Cell
and Developmental Biology and of the U of I
Beckman Institute for
Advanced Science and Technology. Their article, which appeared
in the Dec. 21 issue of the journal Neuron, describes their
findings, which provide "the first direct evidence of a change in
the availability of activated caspase-3 protein in the brain during
the process of memory formation." Caspase-3 is best known for its
role in a biochemical cascade that leads to apoptotic cell death.
These new findings demonstrate that the enzyme acts differently
under different conditions and suggest that its regulation in the
brain is more complex than previously thought.
Huesmann and Clayton examined the brains of zebra finches after
exposing the birds to tape recordings of the songs of other birds.
They found an increase in the concentration of activated caspase-3
in post-synaptic sites of the auditory forebrain shortly after the
birds were exposed to unfamiliar bird songs. Exposure to familiar
songs caused no significant increase in the enzyme.
The researchers demonstrated that the activated form of caspase-3
is short-lived and highly localized, which may explain why the
enzyme does not trigger apoptosis.
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 They also showed that activated caspase-3 is always present in
brain cells, but that it is usually bound by an inhibitor, BIRC4.
For a short time after the birds are exposed to novel songs, the
inhibitor releases the activated caspase-3. The concentration of
unbound, activated caspase-3 peaks about 10 minutes after the birds
hear the new songs.
Other research has added to the evidence that caspase-3 is
essential to memory formation. Caspase-3 inhibitors injected into
rat brains interfere with the animals' spatial memory and active
avoidance learning.
Caspase-3's dual role as a cell killer and memory builder has
long intrigued Huesmann, the lead author of the study. "Is it Memory
or Is It Death? Caspase-3 and Memory Formation" was his dissertation
title. Huesmann has a doctorate in neuroscience and is completing a
medical degree at the University of Illinois.
"Graham had this intuition that growth and memory is really a
kind of remodeling," said Clayton, who is a professor of cell and
structural biology. "You can't have growth without death."
[Text from
University of Illinois at Urbana-Champaign News Bureau release] |
