Rare Diseases Symptoms Automatic Extraction
Home
A random Abstract
Our Project
Our Team
Beneficial effects of curcumin on GFAP filament organization and down-regulation of GFAP expression in an in vitro model of Alexander disease.
[alexander disease]
Heterozygous
mutations
of
the
GFAP
gene
are
responsible
for
Alexander
disease
,
a
neurodegenerative
disorder
characterized
by
intracytoplasmic
Rosenthal
fibers
(
RFs
)
in
dystrophic
astrocytes
.
In
vivo
and
in
vitro
models
have
shown
co
-localization
of
mutant
GFAP
proteins
with
the
small
heat
shock
proteins
(
sHSPs
)
HSP
27
and
alphaB-crystallin
,
ubiquitin
and
proteasome
components
.
Results
reported
by
several
recent
studies
agree
on
ascribing
an
altered
cytoskeletal
pattern
to
mutant
GFAP
proteins
,
an
effect
which
induces
mutant
proteins
accumulation
,
leading
to
impaired
proteasome
function
and
autophagy
induction
.
On
the
basis
of
the
protective
role
shown
by
both
these
small
heat
shock
proteins
(
sHSPs
)
,
and
on
the
already
well
established
neuroprotective
effects
of
curcumin
in
several
diseases
,
we
have
investigated
the
effects
of
this
compound
in
an
in
vitro
model
of
Alexander
disease
,
consisting
in
U
251
-
MG
astrocytoma
cells
transiently
transfected
with
a
construct
encoding
for
GFAP
carrying
the
p
.
R
239
C
mutation
in
frame
with
the
reporter
green
fluorescent
protein
(
GFP
)
.
In
particular
,
depending
on
the
dose
used
,
we
have
observed
that
curcumin
is
able
to
induce
both
HSP
27
and
alphaB-crystallin
,
to
reduce
expression
of
both
RNA
and
protein
of
endogenous
GFAP
,
to
induce
autophagy
and
,
finally
,
to
rescue
the
filamentous
organization
of
the
GFAP
mutant
protein
,
thus
suggesting
a
role
of
this
spice
in
counteracting
the
pathogenic
effects
of
GFAP
mutations
.
Diseases
Validation
Diseases presenting
"small heat shock proteins"
symptom
alexander disease
hereditary cerebral hemorrhage with amyloidosis
inclusion body myositis
You can validate or delete this automatically detected symptom
Validate the Symptom
Delete the Symptom