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TBX1 regulates epithelial polarity and dynamic basal filopodia in the second heart field.
[22q11.2 deletion syndrome]
Elongation
of
the
vertebrate
heart
occurs
by
progressive
addition
of
second
heart
field
(
SHF
)
cardiac
progenitor
cells
from
pharyngeal
mesoderm
to
the
poles
of
the
heart
tube
.
The
importance
of
these
cells
in
the
etiology
of
congenital
heart
defects
has
led
to
extensive
research
into
the
regulation
of
SHF
deployment
by
signaling
pathways
and
transcription
factors
.
However
,
the
basic
cellular
features
of
these
progenitor
cells
,
including
epithelial
polarity
,
cell
shape
and
cell
dynamics
,
remain
poorly
characterized
.
Here
,
using
immunofluorescence
,
live
imaging
and
embryo
culture
,
we
demonstrate
that
SHF
cells
constitute
an
atypical
,
apicobasally
polarized
epithelium
in
the
dorsal
pericardial
wall
,
characterized
by
apical
monocilia
and
dynamic
actin-rich
basal
filopodia
.
We
identify
the
22
q
11
.
2
deletion
syndrome
gene
Tbx
1
,
required
in
the
SHF
for
outflow
tract
development
,
as
a
regulator
of
the
epithelial
properties
of
SHF
cells
.
Cell
shape
changes
in
mutant
embryos
include
increased
circularity
,
a
reduced
basolateral
membrane
domain
and
impaired
filopodial
activity
,
and
are
associated
with
elevated
aPKCζ
levels
.
Activation
of
aPKCζ
in
embryo
culture
similarly
impairs
filopodia
activity
and
phenocopies
proliferative
defects
and
ectopic
differentiation
observed
in
the
SHF
of
Tbx
1
null
embryos
.
Our
results
reveal
that
epithelial
and
progenitor
cell
status
are
coupled
in
the
SHF
,
identifying
control
of
cell
shape
as
a
regulatory
step
in
heart
tube
elongation
and
outflow
tract
morphogenesis
.
Diseases
Validation
Diseases presenting
"reduced basolateral membrane domain and impaired filopodial activity"
symptom
22q11.2 deletion syndrome
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