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Identification of a novel, recurrent HEY1-NCOA2 fusion in mesenchymal chondrosarcoma based on a genome-wide screen of exon-level expression data.
[dedifferentiated liposarcoma]
Cancer
gene
fusions
that
encode
a
chimeric
protein
are
often
characterized
by
an
intragenic
discontinuity
in
the
RNA
\
expression
levels
of
the
exons
that
are
5
'
or
3
'
to
the
fusion
point
in
one
or
both
of
the
fusion
partners
due
to
differences
in
the
levels
of
activation
of
their
respective
promoters
.
Based
on
this
,
we
developed
an
unbiased
,
genome-
wide
bioinformatic
screen
for
gene
fusions
using
Affymetrix
Exon
array
expression
data
.
Using
a
training
set
of
46
samples
with
different
known
gene
fusions
,
we
developed
a
data
analysis
pipeline
,
the
"
Fusion
Score
(
FS
)
model
"
,
to
score
and
rank
genes
for
intragenic
changes
in
expression
.
In
a
separate
discovery
set
of
41
tumor
samples
with
possible
unknown
gene
fusions
,
the
FS
model
generated
a
list
of
552
candidate
genes
.
The
transcription
factor
gene
NCOA
2
was
one
of
the
candidates
identified
in
a
mesenchymal
chondrosarcoma
.
A
novel
HEY
1
-
NCOA
2
fusion
was
identified
by
5
'
RACE
,
representing
an
in
-frame
fusion
of
HEY
1
exon
4
to
NCOA
2
exon
13
.
RT-PCR
or
FISH
evidence
of
this
HEY
1
-
NCOA
2
fusion
was
present
in
all
additional
mesenchymal
chondrosarcomas
tested
with
a
definitive
histologic
diagnosis
and
adequate
material
for
analysis
(
n
=
9
)
but
was
absent
in
15
samples
of
other
subtypes
of
chondrosarcomas
.
We
also
identified
a
NUP
107
-
LGR
5
fusion
in
a
dedifferentiated
liposarcoma
but
analysis
of
17
additional
samples
did
not
confirm
it
as
a
recurrent
event
in
this
sarcoma
type
.
The
novel
HEY
1
-
NCOA
2
fusion
appears
to
be
the
defining
and
diagnostic
gene
fusion
in
mesenchymal
chondrosarcomas
.