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N-wasp is essential for the negative regulation of B cell receptor signaling.
[wiskott-aldrich syndrome]
Negative
regulation
of
receptor
signaling
is
essential
for
controlling
cell
activation
and
differentiation
.
In
B-
lymphocytes
,
the
down-regulation
of
B-
cell
antigen
receptor
(
BCR
)
signaling
is
critical
for
suppressing
the
activation
of
self-reactive
B
cells
;
however
,
the
mechanism
underlying
the
negative
regulation
of
signaling
remains
elusive
.
Using
genetically
manipulated
mouse
models
and
total
internal
reflection
fluorescence
microscopy
,
we
demonstrate
that
neuronal
Wiskott-
Aldrich
syndrome
protein
(
N-WASP
)
,
which
is
coexpressed
with
WASP
in
all
immune
cells
,
is
a
critical
negative
regulator
of
B-
cell
signaling
.
B-
cell-
specific
N-WASP
gene
deletion
causes
enhanced
and
prolonged
BCR
signaling
and
elevated
levels
of
autoantibodies
in
the
mouse
serum
.
The
increased
signaling
in
N-WASP
knockout
B
cells
is
concurrent
with
increased
accumulation
of
F-
actin
at
the
B-
cell
surface
,
enhanced
B-
cell
spreading
on
the
antigen-presenting
membrane
,
delayed
B-
cell
contraction
,
inhibition
in
the
merger
of
signaling
active
BCR
microclusters
into
signaling
inactive
central
clusters
,
and
a
blockage
of
BCR
internalization
.
Upon
BCR
activation
,
WASP
is
activated
first
,
followed
by
N-WASP
in
mouse
and
human
primary
B
cells
.
The
activation
of
N-WASP
is
suppressed
by
Bruton
's
tyrosine
kinase-induced
WASP
activation
,
and
is
restored
by
the
activation
of
SH
2
domain-containing
inositol
5
-
phosphatase
that
inhibits
WASP
activation
.
Our
results
reveal
a
new
mechanism
for
the
negative
regulation
of
BCR
signaling
and
broadly
suggest
an
actin-mediated
mechanism
for
signaling
down-regulation
.
Diseases
Validation
Diseases presenting
"genetically manipulated mouse models"
symptom
wiskott-aldrich syndrome
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