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The heat shock transcription factor Hsf1 is downregulated in DNA damage-associated senescence, contributing to the maintenance of senescence phenotype.
[werner syndrome]
Heat
shock
response
(
HSR
)
that
protects
cells
from
proteotoxic
stresses
is
downregulated
in
aging
,
as
well
as
upon
replicative
senescence
of
cells
in
culture
.
Here
we
demonstrate
that
HSR
is
suppressed
in
fibroblasts
from
the
patients
with
segmental
progerioid
Werner
Syndrome
,
which
undergo
premature
senescence
.
Similar
suppression
of
HSR
was
seen
in
normal
fibroblasts
,
which
underwent
senescence
in
response
to
DNA
damaging
treatments
.
The
major
DNA-damage-induced
signaling
(
DDS
)
pathways
p
53
-
p
21
and
p
38
-
NF-kB-SASP
contributed
to
the
HSR
suppression
.
The
HSR
suppression
was
associated
with
inhibition
of
both
activity
and
transcription
of
the
heat
shock
transcription
factor
Hsf
1
.
This
inhibition
in
large
part
resulted
from
the
downregulation
of
SIRT
1
,
which
in
turn
was
because
of
decrease
in
the
expression
of
the
translation
regulator
HuR
.
Importantly
,
we
uncovered
a
positive
feedback
regulation
,
where
suppression
of
Hsf
1
further
activates
the
p
38
-
NF-
κB-SASP
pathway
,
which
in
turn
promotes
senescence
.
Overexpression
of
Hsf
1
inhibited
the
p
38
-
NFκB-SASP
pathway
and
partially
relieved
senescence
.
Therefore
,
downregulation
of
Hsf
1
plays
an
important
role
in
the
development
or
in
the
maintenance
of
DNA
damage
signaling-induced
cell
senescence
.
Diseases
Validation
Diseases presenting
"inhibition of both activity"
symptom
werner syndrome
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