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GFAP aggregates in the cochlear nerve increase the noise vulnerability of sensory cells in the organ of Corti in the murine model of Alexander disease.
[alexander disease]
Outer
hair
cell
(
OHC
)
loss
in
the
auditory
sensory
epithelium
is
a
primary
cause
of
noise-induced
sensory
-neural
hearing
loss
(
SNHL
)
.
To
clarify
the
participation
of
glial
cells
in
SNHL
,
we
used
an
Alexander
disease
(
AxD
)
mouse
model
.
These
transgenic
mice
harbor
the
AxD
causal
mutant
of
the
human
glial
fibrillary
acidic
protein
(
GFAP
)
under
the
control
of
the
mouse
GFAP
promoter
.
It
is
thought
that
GFAP
aggregates
compromise
the
function
of
astrocytes
.
In
the
auditory
pathway
,
the
formation
of
GFAP
aggregates
was
observed
only
in
GFAP
-
positive
cells
of
the
cochlear
nerve
.
The
presence
of
GFAP
aggregates
did
not
change
auditory
function
at
the
threshold
level
.
To
assess
the
change
in
vulnerability
to
auditory
excitotoxicity
,
both
transgenic
and
control
mice
were
treated
with
intense
noise
exposure
.
Auditory
threshold
shifts
were
assessed
by
auditory
brainstem
responses
(
ABR
)
at
1
and
4
weeks
after
noise
exposure
,
and
OHC
damage
was
analyzed
by
quantitative
histology
at
4
weeks
after
exposure
.
Transgenic
mice
showed
more
severe
ABR
deficits
and
OHC
damage
,
suggesting
that
cochlear
nerve
glial
cells
with
GFAP
aggregates
play
a
role
in
noise
susceptibility
.
Thus
,
we
should
focus
more
on
the
roles
of
cochlear
nerve
glial
cells
in
SNHL
.
Diseases
Validation
Diseases presenting
"positive cells of the cochlear nerve"
symptom
alexander disease
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