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HIV-1 triggers WAVE2 phosphorylation in primary CD4 T cells and macrophages, mediating Arp2/3-dependent nuclear migration.
[wiskott-aldrich syndrome]
The
human
immunodeficiency
virus
type
1
(
HIV-
1
)
initiates
receptor
signaling
and
early
actin
dynamics
during
viral
entry
.
This
process
is
required
for
viral
infection
of
primary
targets
such
as
resting
CD
4
T
cells
.
WAVE
2
is
a
component
of
a
multiprotein
complex
linking
receptor
signaling
to
dynamic
remodeling
of
the
actin
cytoskeleton
.
WAVE
2
directly
activates
Arp
2
/
3
,
leading
to
actin
nucleation
and
filament
branching
.
Although
several
bacterial
and
viral
pathogens
target
Arp
2
/
3
for
intracellular
mobility
,
it
remains
unknown
whether
HIV-
1
actively
modulates
the
Arp
2
/
3
complex
through
virus-mediated
receptor
signal
transduction
.
Here
we
report
that
HIV-
1
triggers
WAVE
2
phosphorylation
at
serine
351
through
gp
120
binding
to
the
chemokine
coreceptor
CXCR
4
or
CCR
5
during
entry
.
This
phosphorylation
event
involves
both
Gαi-dependent
and
-
independent
pathways
,
and
is
conserved
both
in
X
4
and
R
5
viral
infection
of
resting
CD
4
T
cells
and
primary
macrophages
.
We
further
demonstrate
that
inhibition
of
WAVE
2
-
mediated
Arp
2
/
3
activity
through
stable
shRNA
knockdown
of
Arp
3
dramatically
diminished
HIV-
1
infection
of
CD
4
T
cells
,
preventing
viral
nuclear
migration
.
Inhibition
of
Arp
2
/
3
through
a
specific
inhibitor
,
CK
548
,
also
drastically
inhibited
HIV-
1
nuclear
migration
and
infection
of
CD
4
T
cells
.
Our
results
suggest
that
Arp
2
/
3
and
the
upstream
regulator
,
WAVE
2
,
are
essential
co
-factors
hijacked
by
HIV
for
intracellular
migration
,
and
may
serve
as
novel
targets
to
prevent
HIV
transmission
.
Diseases
Validation
Diseases presenting
"actin nucleation"
symptom
wiskott-aldrich syndrome
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