SIGNATURE OF AGING IN BRAIN , SCIENTISTS SUGGEST THAT THE BRAINS IMMUNOLOGICAL AGE IS WHAT COUNTS
How the brain ages is
still largely an open question -- in part because this organ is mostly
insulated from direct contact with other systems in the body, including the
blood and immune systems. In research that was recently published in Science, Weizmann
Institute researchers Prof. Michal Schwartz of the Neurobiology Department and
Dr. Ido Amit of Immunology Department found evidence of a unique
"signature" that may be the "missing link" between
cognitive decline and aging. The scientists believe that this discovery may
lead, in the future, to treatments that can slow or reverse cognitive decline
in older people
Until a decade ago,
scientific dogma held that the blood-brain barrier prevents the blood-borne
immune cells from attacking and destroying brain tissue. Yet in a long series
of studies, Schwartz's group had shown that the immune system actually plays an
important role both in healing the brain after injury and in maintaining the
brain's normal functioning. They have found that this brain-immune interaction
occurs across a barrier that is actually a unique interface within the brain's
territory.
This interface, known
as the choroid plexus, is found in each of the brain's four ventricles, and it
separates the blood from the cerebrospinal fluid. Schwartz: "The choroid
plexus acts as a 'remote control' for the immune system to affect brain
activity. Biochemical 'danger' signals released from the brain are sensed
through this interface; in turn, blood-borne immune cells assist by
communicating with the choroid plexus.This cross-talk is important for
preserving cognitive abilities and promoting the generation of new brain
cells."
This finding led
Schwartz and her group to suggest that cognitive decline over the years may be
connected not only to one's "chronological age" but also to one's
"immunological age," that is, changes in immune function over time
might contribute to changes in brain function -- not necessarily in step with
the count of one's years.
To test this theory,
Schwartz and research students Kuti Baruch and Aleksandra Deczkowska teamed up
with Amit and his research group in the Immunology Department. The researchers
used next-generation sequencing technology to map changes in gene expression in
11 different organs, including the choroid plexus, in both young and aged mice,
to identify and compare pathways involved in the aging process.
That is how they
identified a strikingly unique "signature of aging" that exists
solely in the choroid plexus -- not in the other organs. They discovered that
one of the main elements of this signature was interferon beta -- a protein
that the body normally produces to fight viral infection. This protein appears
to have a negative effect on the brain: When the researchers injected an
antibody that blocks interferon beta activity into the cerebrospinal fluid of
the older mice, their cognitive abilities were restored, as was their ability
to form new brain cells. The scientists were also able to identify this unique
signature in elderly human brains. The scientists hope that this finding may,
in the future, help prevent or reverse cognitive decline in old age, by finding
ways to rejuvenate the "immunological age" of the brain.
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