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Tissue-specific responses to aberrant FGF signaling in complex head phenotypes.
[achondroplasia]
The
role
of
fibroblast
growth
factor
and
receptor
(
FGF
/
FGFR
)
signaling
in
bone
development
is
well
studied
,
partly
because
mutations
in
FGFRs
cause
human
diseases
of
achondroplasia
and
FGFR-related
craniosynostosis
syndromes
including
Crouzon
syndrome
.
The
FGFR
2
c
C
3
42
Y
mutation
is
a
frequent
cause
of
Crouzon
syndrome
,
characterized
by
premature
cranial
vault
suture
closure
,
midfacial
deficiency
,
and
neurocranial
dysmorphology
.
Here
,
using
newborn
Fgfr
2
c
(
C
3
42
Y
/
+
)
Crouzon
syndrome
mice
,
we
tested
whether
the
phenotypic
effects
of
this
mutation
go
beyond
the
skeletal
tissues
of
the
skull
,
altering
the
development
of
other
non-
skeletal
head
tissues
including
the
brain
,
the
eyes
,
the
nasopharynx
,
and
the
inner
ears
.
Quantitative
analysis
of
3
D
multimodal
imaging
(
high
-resolution
micro-computed
tomography
and
magnetic
resonance
microscopy
)
revealed
local
differences
in
skull
morphology
and
coronal
suture
patency
between
Fgfr
2
c
(
C
3
42
Y
/
+
)
mice
and
unaffected
littermates
,
as
well
as
changes
in
brain
shape
but
not
brain
size
,
significant
reductions
in
nasopharyngeal
and
eye
volumes
,
and
no
difference
in
inner
ear
volume
in
Fgfr
2
c
(
C
3
42
Y
/
+
)
mice
.
These
findings
provide
an
expanded
catalogue
of
clinical
phenotypes
in
Crouzon
syndrome
caused
by
aberrant
FGF
/
FGFR
signaling
and
evidence
of
the
broad
role
for
FGF
/
FGFR
signaling
in
development
and
evolution
of
the
vertebrate
head
.
Diseases
Validation
Diseases presenting
"aberrant fgf"
symptom
achondroplasia
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