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Hyperosmia, ectrodactyly, mild intellectual disability, and other defects in a male patient with an X-linked partial microduplication and overexpression of the KAL1 gene.
[kallmann syndrome]
Loss
-of-function
mutations
of
the
KAL
1
gene
are
a
known
cause
of
Kallmann
syndrome
,
a
disorder
characterized
by
the
coexistence
of
hypogonadotropic
hypogonadism
and
anosmia
/
hiposmia
.
On
the
other
hand
,
neither
complete
nor
partial
duplications
of
KAL
1
have
been
reported
in
the
literature
;
thus
,
clinical
symptoms
associated
with
such
alterations
remain
unknown
.
Ectrodactyly
is
a
clinically
and
genetically
heterogeneous
abnormality
presenting
with
hypoplasia
of
the
central
rays
of
the
extremity
,
which
,
in
around
68
Â
%
of
cases
,
has
unknown
underlying
molecular
defect
.
In
this
paper
,
we
report
on
a
sporadic
male
patient
manifesting
hyperosmia
and
ectrodactyly
accompanied
by
additional
symptoms
involving
mild
intellectual
disability
,
unilateral
hearing
loss
,
genital
anomalies
,
stocky
build
,
and
facial
dysmorphism
.
Using
a
combination
of
high
-resolution
array
comparative
genomic
hybridization
(
array
CGH
)
and
breakpoint
analysis
,
we
detected
a
hemizygous
tandem
duplication
of
110
,
967
Â
bp
on
Xp
22
.
31
,
encompassing
the
promoter
region
and
the
first
two
exons
of
KAL
1
.
In
order
to
confirm
pathogenicity
of
the
duplication
,
we
tested
the
level
of
KAL
1
transcript
in
blood
lymphocytes
,
showing
79
times
higher
expression
in
the
proband
compared
to
controls
.
We
,
therefore
,
hypothesize
that
olfactory
hypersensitivity
in
our
proband
directly
results
from
KAL
1
overproduction
.
Additionally
,
a
literature
review
allowed
us
to
conclude
that
KAL
1
protein
at
high
levels
may
interfere
with
FGFR
1
signaling
activity
,
most
probably
indirectly
giving
rise
to
ectrodactyly
,
intellectual
disability
,
and
genital
anomalies
.
Noteworthy
,
those
symptoms
overlap
with
Hartsfield
syndrome
caused
by
FGFR
1
loss
-of-function
mutations
.
To
conclude
,
our
paper
highlights
the
role
of
KAL
1
in
embryogenesis
and
provides
data
on
the
contribution
of
KAL
1
overexpression
to
human
pathology
.
Diseases
Validation
Diseases presenting
"which"
symptom
alexander disease
cowden syndrome
dystrophic epidermolysis bullosa
kallmann syndrome
primary effusion lymphoma
primary hyperoxaluria type 1
thoracic outlet syndrome
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