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Intracellular fibril formation, calcification, and enrichment of chaperones, cytoskeletal, and intermediate filament proteins in the adult hippocampus CA1 following neonatal exposure to the nonprotein amino acid BMAA.
[alexander disease]
The
environmental
neurotoxin
β-
N-
methylamino-
L-
alanine
(
BMAA
)
has
been
implicated
in
the
etiology
of
neurodegenerative
disease
,
and
recent
studies
indicate
that
BMAA
can
be
misincorporated
into
proteins
.
BMAA
is
a
developmental
neurotoxicant
that
can
induce
long
-term
learning
and
memory
deficits
,
as
well
as
regionally
restricted
neuronal
degeneration
and
mineralization
in
the
hippocampal
CA
1
.
The
aim
of
the
study
was
to
characterize
long
-term
changes
(
2
Â
weeks
to
6
Â
months
)
further
in
the
brain
of
adult
rats
treated
neonatally
(
postnatal
days
9
-
10
)
with
BMAA
(
460
Â
mg
/
kg
)
using
immunohistochemistry
(
IHC
)
,
transmission
electron
microscopy
,
and
laser
capture
microdissection
followed
by
LC
-
MS
/
MS
for
proteomic
analysis
.
The
histological
examination
demonstrated
progressive
neurodegenerative
changes
,
astrogliosis
,
microglial
activation
,
and
calcification
in
the
hippocampal
CA
1
3
-
6
Â
months
after
exposure
.
The
IHC
showed
an
increased
staining
for
α-synuclein
and
ubiquitin
in
the
area
.
The
ultrastructural
examination
revealed
intracellular
deposition
of
abundant
bundles
of
closely
packed
parallel
fibrils
in
neurons
,
axons
,
and
astrocytes
of
the
CA
1
.
Proteomic
analysis
of
the
affected
site
demonstrated
an
enrichment
of
chaperones
(
e
.
g
.
,
clusterin
,
GRP
-
78
)
,
cytoskeletal
and
intermediate
filament
proteins
,
and
proteins
involved
in
the
antioxidant
defense
system
.
Several
of
the
most
enriched
proteins
(
plectin
,
glial
fibrillar
acidic
protein
,
vimentin
,
Hsp
27
,
and
ubiquitin
)
are
known
to
form
complex
astrocytic
inclusions
,
so
-called
Rosenthal
fibers
,
in
the
neurodegenerative
disorder
Alexander
disease
.
In
addition
,
TDP-
43
and
the
negative
regulator
of
autophagy
,
GLIPR-
2
,
were
Â
exclusively
detected
.
The
present
study
demonstrates
that
neonatal
exposure
to
BMAA
may
offer
a
novel
model
for
the
study
of
hippocampal
fibril
formation
in
vivo
.
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"axons"
symptom
alexander disease
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