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Establishing 3-nitrotyrosine as a biomarker for the vasculopathy of Fabry disease.
[fabry disease]
The
endothelial
dysfunction
of
Fabry
disease
results
from
α-galactosidase
A
deficiency
leading
to
the
accumulation
of
globotriaosylceramide
.
Vasculopathy
in
the
α-galactosidase
A
null
mouse
is
manifested
as
oxidant-induced
thrombosis
,
accelerated
atherogenesis
,
and
impaired
arterial
reactivity
.
To
better
understand
the
pathogenesis
of
Fabry
disease
in
humans
,
we
generated
a
human
cell
model
by
using
RNA
interference
.
Hybrid
endothelial
cells
were
transiently
transfected
with
small
interfering
RNA
(
siRNA
)
specifically
directed
against
α-galactosidase
A
.
Knockdown
of
α-galactosidase
A
was
confirmed
using
immunoblotting
and
globotriaosylceramide
accumulation
.
Endothelial
nitric
oxide
synthase
(
eNOS
)
activity
was
correspondingly
decreased
by
>
60
%
.
Levels
of
3
-
nitrotyrosine
(
3
NT
)
,
a
specific
marker
for
reactive
nitrogen
species
and
quantified
using
mass
spectrometry
,
increased
by
40
-
to
120
-
fold
without
corresponding
changes
in
other
oxidized
amino
acids
,
consistent
with
eNOS-derived
reactive
nitrogen
species
as
the
source
of
the
reactive
oxygen
species
.
eNOS
uncoupling
was
confirmed
by
the
observed
increase
in
free
plasma
and
protein-bound
aortic
3
NT
levels
in
the
α-galactosidase
A
knockout
mice
.
Finally
,
3
NT
levels
,
assayed
in
biobanked
plasma
samples
from
patients
with
classical
Fabry
disease
,
were
over
sixfold
elevated
compared
with
age-
and
gender-matched
controls
.
Thus
,
3
NT
may
serve
as
a
biomarker
for
the
vascular
involvement
in
Fabry
disease
.
Diseases
Validation
Diseases presenting
"impaired arterial reactivity"
symptom
fabry disease
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