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K14 mRNA reprogramming for dominant epidermolysis bullosa simplex.
[epidermolysis bullosa simplex]
The
major
challenge
to
a
successful
gene
therapy
of
autosomal
dominant
genetic
diseases
is
a
highly
efficient
and
specific
knock-down
or
repair
of
the
disease-causing
allele
.
In
epidermolysis
bullosa
simplex
-
type
Dowling-
Meara
(
EBS
-
DM
)
,
a
single
amino
acid
exchange
in
exon
1
of
the
keratin
14
gene
(
K
14
)
triggers
a
severe
skin
phenotype
,
characterized
by
blistering
of
the
skin
and
mucous
membranes
after
minor
trauma
.
We
chose
spliceosome-mediated
RNA
trans-splicing
to
specifically
replace
exons
1
-
7
of
the
K
14
gene
.
In
this
approach
,
the
mutated
coding
region
is
replaced
by
an
RNA-trans-splicing
molecule
(
RTM
)
that
incorporates
a
binding
domain
(
BD
)
and
the
wild-
type
sequence
of
K
14
.
Since
the
BD
is
crucial
for
the
trans-splicing
functionality
,
we
developed
a
fluorescence-based
RTM
screen
consisting
of
an
RTM
library
containing
random
BDs
.
Co
-transfection
of
the
library
with
a
target
molecule
enabled
us
to
identify
highly
functional
RTMs
.
The
best
RTMs
were
adapted
for
endogenous
trans-splicing
in
an
EBS
-
DM
patient
cell
line
.
In
this
cell
line
,
we
were
able
to
detect
functional
,
efficient
and
correct
trans-splicing
on
RNA
and
protein
levels
.
Scratch
assays
confirmed
phenotypic
reversion
in
vitro
.
Owing
to
concomitant
knock-down
and
repair
of
the
mutated
allele
,
we
assume
that
trans-splicing
is
a
promising
tool
for
the
treatment
of
autosomal
dominant
genetic
disease
.
Diseases
Validation
Diseases presenting
"type sequence"
symptom
epidermolysis bullosa simplex
papillon-lefèvre syndrome
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