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Alexander disease mutant glial fibrillary acidic protein compromises glutamate transport in astrocytes.
[alexander disease]
Alexander
disease
(
AxD
)
is
a
leukodystrophy
caused
by
heterozygous
mutations
in
the
gene
for
glial
fibrillary
acidic
protein
,
an
intermediate
filament
protein
expressed
by
astrocytes
.
The
mutation
causes
prominent
protein
aggregates
inside
astrocytes
;
there
is
also
loss
of
myelin
and
oligodendrocytes
and
neuronal
degeneration
.
We
show
that
immunohistochemical
staining
for
glutamate
transporter
1
,
the
major
brain
glutamate
transporter
expressed
primarily
in
astrocytes
suggests
decreased
levels
in
the
hippocampi
of
infantile
AxD
patients
.
A
knock-
in
mouse
model
of
AxD
also
shows
significant
reduction
of
glutamate
transporter
1
in
the
hippocampus
.
To
explore
this
phenomenon
at
the
cellular
level
,
wild-
type
and
R
239
C
mutant
glial
fibrillary
acidic
proteins
(
the
most
common
mutation
)
were
overexpressed
in
astrocytes
in
culture
.
Western
blotting
and
whole-cell
patch
clamp
recordings
demonstrated
that
the
R
239
C
astrocytes
exhibited
markedly
reduced
glutamate
transporter
1
protein
levels
;
this
resulted
in
attenuated
or
abolished
glutamate-induced
inward
transporter
current
.
Neurons
cocultured
with
the
R
239
C
astrocytes
exhibited
increased
death
after
glutamate
challenge
.
These
results
indicate
that
aberrant
astrocytes
have
decreased
glutamate
uptake
,
which
may
play
an
important
role
in
the
pathogenesis
of
neuronal
and
oligodendrocyte
injury
and
death
in
AxD
.
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alexander disease
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