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Alteration of glial-neuronal metabolic interactions in a mouse model of Alexander disease.
[alexander disease]
Alexander
disease
is
a
rare
and
usually
fatal
neurological
disorder
characterized
by
the
abundant
presence
of
protein
aggregates
in
astrocytes
.
Most
cases
result
from
dominant
missense
de
novo
mutations
in
the
gene
encoding
glial
fibrillary
acidic
protein
(
GFAP
)
,
but
how
these
mutations
lead
to
aggregate
formation
and
compromise
function
is
not
known
.
A
transgenic
mouse
line
(
Tg
73
.
7
)
over-expressing
human
GFAP
produces
astrocytic
aggregates
indistinguishable
from
those
seen
in
the
human
disease
,
making
them
a
model
of
this
disorder
.
To
investigate
possible
metabolic
changes
associated
with
Alexander
disease
Tg
73
.
7
mice
and
controls
were
injected
simultaneously
with
[
1
-
(
13
)
C
]
glucose
to
analyze
neuronal
metabolism
and
[
1
,
2
-
(
13
)
C
]
acetate
to
monitor
astrocytic
metabolism
.
Brain
extracts
were
analyzed
by
(
1
)
H
magnetic
resonance
spectroscopy
(
MRS
)
to
quantify
amounts
of
several
key
metabolites
,
and
by
(
13
)
C
MRS
to
analyze
amino
acid
neurotransmitter
metabolism
.
In
the
cerebral
cortex
,
reduced
utilization
of
[
1
,
2
-
(
13
)
C
]
acetate
was
observed
for
synthesis
of
glutamine
,
glutamate
,
and
GABA
,
and
the
concentration
of
the
marker
for
neuronal
mitochondrial
metabolism
,
N-
acetylaspartate
(
NAA
)
was
decreased
.
This
indicates
impaired
astrocytic
and
neuronal
metabolism
and
decreased
transfer
of
glutamine
from
astrocytes
to
neurons
compared
with
control
mice
.
In
the
cerebellum
,
glutamine
and
GABA
content
and
labeling
from
[
1
-
(
13
)
C
]
glucose
were
increased
.
Evidence
for
brain
edema
was
found
in
the
increased
amount
of
water
and
of
the
osmoregulators
myo-inositol
and
taurine
.
It
can
be
concluded
that
astrocyte-
neuronal
interactions
were
altered
differently
in
distinct
regions
.
Diseases
Validation
Diseases presenting
"increased amount of water and of the osmoregulators"
symptom
alexander disease
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