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The ubiquitin ligase CHIP/STUB1 targets mutant keratins for degradation.
[epidermolysis bullosa simplex]
Keratin
(
K
)
intermediate
filament
proteins
form
cytoskeletal
scaffolds
in
epithelia
,
the
disruption
of
which
leads
to
a
large
number
of
human
disorders
.
KRT
5
or
KRT
14
mutations
cause
epidermolysis
bullosa
simplex
(
EBS
)
.
The
considerable
intra-
and
interfamilial
variability
in
EBS
suggests
modifying
loci
,
most
of
which
are
unknown
.
In
many
human
disorders
,
chaperones
and
the
ubiquitin-proteasome
system
have
been
found
to
modify
disease
severity
,
thereby
providing
novel
therapy
targets
.
Here
,
we
demonstrate
upregulation
of
stress-induced
Hsp
70
and
Hsp
90
in
two
EBS
models
,
namely
,
in
neonatal
K
5
(
-
/
-
)
mice
and
upon
proteasome
inhibition
in
cells
that
stably
express
the
disease-causing
mutation
K
14
-
p
.
Arg
125
C
ys
,
both
harboring
keratin
aggregates
.
Furthermore
,
proteasome
inhibition
caused
nuclear
translocation
of
pHSF-
1
and
an
increase
in
K
14
-
p
.
Arg
125
Cys-
positive
aggregates
in
cells
.
Overexpression
of
the
chaperone-associated
ubiquitin
ligase
CHIP
/
STUB
1
strongly
reduced
keratin
aggregates
through
increased
degradation
of
mutant
K
14
.
Using
CHIP
-
p
.
Met
1
_
Ala
142
del
(
DeltaTPR-
CHIP
)
,
we
demonstrated
the
involvement
of
Hsc
70
and
Hsp
70
in
mutant
keratin
degradation
.
Our
data
uncover
common
principles
between
EBS
and
other
protein
misfolding
disorders
,
revealing
that
aggregation-prone
keratins
are
targeted
by
components
of
the
chaperone
machinery
.
Thus
,
modulation
of
the
chaperone
machinery
using
small
molecules
may
represent
a
novel
therapeutic
strategy
for
dominant
EBS
,
allowing
reformation
of
an
intact
keratin
cytoskeleton
.
Diseases
Validation
Diseases presenting
"reduced keratin aggregates through increased degradation"
symptom
epidermolysis bullosa simplex
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