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Stress-dependent proteolytic processing of the actin assembly protein Lsb1 modulates a yeast prion.
[wiskott-aldrich syndrome]
Yeast
prions
are
self-propagating
amyloid-like
aggregates
of
Q
/
N-
rich
protein
that
confer
heritable
traits
and
provide
a
model
of
mammalian
amyloidoses
.
[
PSI
(
+
)
]
is
a
prion
isoform
of
the
translation
termination
factor
Sup
35
.
Propagation
of
[
PSI
(
+
)
]
during
cell
division
under
normal
conditions
and
during
the
recovery
from
damaging
environmental
stress
depends
on
cellular
chaperones
and
is
influenced
by
ubiquitin
proteolysis
and
the
actin
cytoskeleton
.
The
paralogous
yeast
proteins
Lsb
1
and
Lsb
2
bind
the
actin
assembly
protein
Las
17
(
a
yeast
homolog
of
human
Wiskott-
Aldrich
syndrome
protein
)
and
participate
in
the
endocytic
pathway
.
Lsb
2
was
shown
to
modulate
maintenance
of
[
PSI
(
+
)
]
during
and
after
heat
shock
.
Here
,
we
demonstrate
that
Lsb
1
also
regulates
maintenance
of
the
Sup
35
prion
during
and
after
heat
shock
.
These
data
point
to
the
involvement
of
Lsb
proteins
in
the
partitioning
of
protein
aggregates
in
stressed
cells
.
Lsb
1
abundance
and
cycling
between
actin
patches
,
endoplasmic
reticulum
,
and
cytosol
is
regulated
by
the
Guided
Entry
of
Tail-anchored
proteins
pathway
and
Rsp
5
-
dependent
ubiquitination
.
Heat
shock-induced
proteolytic
processing
of
Lsb
1
is
crucial
for
prion
maintenance
during
stress
.
Our
findings
identify
Lsb
1
as
another
component
of
a
tightly
regulated
pathway
controlling
protein
aggregation
in
changing
environments
.
Diseases
Validation
Diseases presenting
"shock-induced proteolytic processing"
symptom
wiskott-aldrich syndrome
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