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Deficits in adult neurogenesis, contextual fear conditioning, and spatial learning in a Gfap mutant mouse model of Alexander disease.
[alexander disease]
Glial
fibrillary
acidic
protein
(
GFAP
)
is
the
major
intermediate
filament
of
mature
astrocytes
in
the
mammalian
CNS
.
Dominant
gain
of
function
mutations
in
GFAP
lead
to
the
fatal
neurodegenerative
disorder
,
Alexander
disease
(
AxD
)
,
which
is
characterized
by
cytoplasmic
protein
aggregates
known
as
Rosenthal
fibers
along
with
variable
degrees
of
leukodystrophy
and
intellectual
disability
.
The
mechanisms
by
which
mutant
GFAP
leads
to
these
pleiotropic
effects
are
unknown
.
In
addition
to
astrocytes
,
GFAP
is
also
expressed
in
other
cell
types
,
particularly
neural
stem
cells
that
form
the
reservoir
supporting
adult
neurogenesis
in
the
hippocampal
dentate
gyrus
and
subventricular
zone
of
the
lateral
ventricles
.
Here
,
we
show
that
mouse
models
of
AxD
exhibit
significant
pathology
in
GFAP
-
positive
radial
glia-like
cells
in
the
dentate
gyrus
,
and
suffer
from
deficits
in
adult
neurogenesis
.
In
addition
,
they
display
impairments
in
contextual
learning
and
spatial
memory
.
This
is
the
first
demonstration
of
cognitive
phenotypes
in
a
model
of
primary
astrocyte
disease
.
Diseases
Validation
Diseases presenting
"first demonstration"
symptom
alexander disease
classical phenylketonuria
systemic capillary leak syndrome
werner syndrome
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