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ew research has shown that impaired
insulin signaling in the brain, often a feature of diabetes, may negatively
impact cognition, mood, and metabolism — all of which are common aspects of
Alzheimer's disease.
A new study examines the links
between Alzheimer's and diabetes.
Although
the conditions are seemingly independent of each other, earlier studies have
found that people with type 2 diabetes are more likely to
develop Alzheimer's disease.
However,
the mechanisms behind this relationship have remained hidden.
A
recent study investigated the impact of blocking insulin receptors and insulin-like growth
factor (IGF1) receptors in mouse models.
The
work was carried out at the Joslin Diabetes Center, affiliated with Harvard
Medical School in Boston, MA. The results reveal that interrupting these
similar pathways impaired both learning and memory.
The
researchers published their findings in
the Proceedings of the National Academy of Sciences.
Insulin receptors and learning
The
researchers worked with both the hippocampus and the central amygdala, areas of
the brain that help with cognition function, as well as metabolic control.
They
looked into how mice with disabled insulin and IGF1 receptors tackled mazes,
and the results were revealing.
First,
the researchers allowed the mice to explore the maze to familiarize themselves
with its layout, and then they blocked a pathway before reintroducing the mice
to the labyrinth.
These
particular mice failed to analyze the new barricade and instead tried to go
through the maze as if it was the way it had always been.
Senior
author C. Ronald Kahn, chief academic officer at Joslin and the Mary K. Iacocca
Professor of Medicine at Harvard Medical School, notes that this is the first
study that shows a relationship between these disrupted pathways and cognition
problems.
He
says, "Since these two receptors can partially compensate for one another,
what we did that was critical was this combined insulin and IGF receptor
knockout."
Prof.
Kahn goes on to explain, "However, it was also important to do it in
specific regions, since if it was everywhere it might have impaired brain
development. By knocking out both [receptors], we removed not only the primary
way they work but the backup system that's already built in."
Alzheimer's is not a normal part of aging
Alzheimer's
disease is the most common cause of dementia, which is when a
person is experiencing memory loss and other cognition issues that are severe
enough to interfere with daily life.
Alzheimer's,
though, is not a normal part of aging, and while most of those who have it are
65 years of age and older, it can affect people who are younger.
Alzheimer's
does not get better over time, and, in most cases, it tends to worsen until the
person loses the ability to carry on a conversation or respond to what is
happening around them.
There is no cure for the condition, but there are
treatments available that can slow down progression and may improve the
individual's overall quality of life.
There
are risk factors that scientists have associated with
developing Alzheimer's disease. There are some factors that people cannot
control, for example, age, family history, and genetics. People might be able
to influence other potential causes, however, including head injuries and heart disease.
Other
conditions that can lead to vascular damage, such as high blood pressure and stroke, may also be
factors in Alzheimer's risk.
Diabetes is also a risk factor
Additionally, diabetes is
a known risk factor for Alzheimer's disease. Other studies have shown a
connection between insulin pathways and premature cognitive decline,
dementia, depression, and anxiety.
Also,
studies have helped demonstrate that abnormal receptors are present more often
in those who have both Alzheimer's and type 2 diabetes.
The
current study is the first to target specific regions to help determine cause
and effect.
Next,
the researchers want to look at what happens when they cross the mice they used
in this study with mice that are genetically prone to developing Alzheimer's.
Investigating
these connections, they say, may lead to recommendations of lifestyle changes
well before a disease process even begins.
"With diabetes and obesity, there is resistance in these
pathways and, therefore, we think that this could be an important factor as to
why people with Alzheimer's disease and diabetes have a faster-accelerated course
or have more Alzheimer's disease.
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