bioRxiv (Cold Spring Harbor Laboratory),
Год журнала:
2024,
Номер
unknown
Опубликована: Дек. 12, 2024
Yeast
Msp1
is
a
dual-localized
AAA-ATPase
on
the
mitochondrial
outer
membrane
(OM)
and
peroxisomal
membrane.
We
previously
showed
that
transfers
mistargeted
tail-anchored
(TA)
proteins
from
mitochondria
to
endoplasmic
reticulum
(ER)
for
degradation
or
delivery
their
original
destinations.
However,
mechanism
by
which
in
peroxisomes
handles
authentic
TA
remains
unclear.
show
newly
synthesized
Pex15
targeted
primarily
via
Pex19-
Pex3-dependent
pathway.
Mistargeted
OM
extracted
Msp1,
transferred
ER
guided-entry
of
pathway
Pex19-Pex3
Intriguingly,
endogenous
localized
also
membranes
but
returns
These
results
suggest
correct
localization
relies
not
only
initial
targeting
constant
re-routing
Pex19-Pex3.
International Journal of Biological Sciences,
Год журнала:
2024,
Номер
20(11), С. 4458 - 4475
Опубликована: Янв. 1, 2024
This
study
investigated
the
mechanism
by
which
NR4A1
regulates
mitochondrial
fission
factor
(Mff)-related
and
FUN14
domain
1
(FUNDC1)-mediated
mitophagy
following
cardiac
ischemia-reperfusion
injury(I/R).
Our
findings
showed
that
damage
regulation
was
positively
correlated
with
pathological
pan-apoptosis
of
myocardial
cell
mitochondria.
Compared
wild-type
mice
(WT),
NR4A1-knockout
exhibited
resistance
to
injury
fission,
characterized
activation.
Results
increased
expression
level,
activating
mediated
Mff
restoring
phenotype
FUNDC1.
The
inactivation
FUNDC1
phosphorylation
could
not
mediate
normalization
in
a
timely
manner,
leading
an
excessive
stress
response
unfolded
proteins
imbalance
homeostasis.
process
disrupted
quality
control
network,
accumulation
damaged
mitochondria
activation
pan-apoptotic
programs.
data
indicate
is
novel
critical
target
I/R
exertsand
negative
regulatory
effects
Mff-mediated
mito-fission
inhibiting
FUNDC1-mediated
mitophagy.
Targeting
crosstalk
balance
between
NR4A1-Mff-FUNDC1
potential
approach
for
treating
I/R.
bioRxiv (Cold Spring Harbor Laboratory),
Год журнала:
2025,
Номер
unknown
Опубликована: Янв. 15, 2025
Abstract
Recent
work
has
demonstrated
that
the
soluble
photoconvertable
fluorescent
protein
mEOS
can
be
a
reporter
for
AAA+
(ATPases
Associated
with
diverse
cellular
Activities)
unfoldase
activity.
Given
many
proteins
process
membrane
proteins,
we
sought
to
adapt
use
substrates.
However,
direct
genetic
fusion
of
completely
abolished
fluorescence,
severely
limiting
utility
studying
proteins.
To
circumvent
this
challenge,
separately
purified
and
degron,
covalently
linked
them
via
Sortase,
photoconverted
construct.
This
innovative
approach
preserves
fluorescence
enables
functional
analysis,
offering
broadly
applicable
platform
study
associated
bioRxiv (Cold Spring Harbor Laboratory),
Год журнала:
2025,
Номер
unknown
Опубликована: Янв. 23, 2025
Lipid
saturation
is
a
key
determinant
of
membrane
function
and
organelle
health,
with
changes
in
triggering
adaptive
quality
control
mechanisms
to
maintain
integrity.
Among
cellular
membranes,
the
mitochondrial
outer
(OMM)
an
important
interface
for
many
functions,
but
how
lipid
impacts
OMM
remains
unclear.
Here,
we
show
that
increased
intracellular
unsaturated
fatty
acids
(UFAs)
remodel
by
promoting
formation
multilamellar
mitochondrial-derived
compartments
(MDCs),
which
sequester
proteins
lipids
from
OMM.
These
effects
depend
on
incorporation
UFAs
into
phospholipids,
suggesting
bilayer
composition
mediate
this
process.
Furthermore,
elevated
impair
assembly
protein
translocase
(TOM)
complex,
unassembled
TOM
components
captured
MDCs.
Collectively,
these
findings
suggest
alterations
phospholipid
may
destabilize
complexes
trigger
response
excess
through
MDC
formation.
Mitochondrial-derived
are
structures
metabolic
perturbations,
it
largely
unknown
fluidity
influences
pathway.Increased
levels
phospholipids
disrupt
large
multi-subunit
complex
membrane,
promote
compartments,
while
saturated
inhibits
compartments.These
reveal
link
between
stress
driving
compartment
biogenesis,
thus
control.
Nature Communications,
Год журнала:
2025,
Номер
16(1)
Опубликована: Фев. 10, 2025
Abstract
Mitochondria
are
essential
organelles
and
their
functional
state
dictates
cellular
proteostasis.
However,
little
is
known
about
the
molecular
gatekeepers
involved,
especially
in
absence
of
external
stress.
Here
we
identify
a
role
MFN2
quality
control
independent
its
function
organellar
shape
remodeling.
ablation
alters
proteome,
marked
for
example
by
decreased
levels
import
machinery
accumulation
kinase
PINK1.
Moreover,
interacts
with
proteasome
cytosolic
chaperones,
thereby
preventing
aggregation
newly
translated
proteins.
Similarly
to
MFN2-KO
cells,
patient
fibroblasts
MFN2-disease
variants
recapitulate
excessive
protein
defects.
Restoring
re-establishes
proteostasis
cells
rescues
fusion
defects
MFN1-KO
cells.
In
contrast,
MFN1
loss
or
mitochondrial
alterations
do
not
alter
aggregation,
consistent
fusion-independent
homeostasis.
sum,
our
findings
open
new
possibilities
therapeutic
strategies
modulation
levels.
N6-Threonylcarbamoyladenosine
(t6A)
modification
irregularities
and
their
associated
enzymes
genes
(OSGEP,
OSGEPL1,
TPRKB,
GON7,
TP53RK,
YRDC,
LAGE3)
are
linked
to
various
malignancies
development,
including
Hepatocellular
Carcinoma
(HCC),
yet
the
specific
mechanisms
remain
obscure.
This
gap
in
knowledge
is
significant,
as
understanding
of
t6A
could
reveal
new
insights
into
HCC
pathogenesis
potentially
identify
novel
therapeutic
targets.
We
leveraged
data
from
The
Cancer
Genome
Atlas
(TCGA)
analyze
expression
t6A-associated
genes,
with
a
focus
on
OSGEPL1
HCC.
Our
analyses
included
survival
outcome,
gene
expression,
functional
enrichment,
immune
cell
infiltration,
somatic
mutation
data.
discovered
that
upregulated
correlated
tumor
grade,
pathological
T
stage,
overall
stage.
It
inversely
impacts
infiltration.
In
vitro
experiments
confirmed
role
promoting
proliferation.
study
implicates
pathway
dysregulation
prognosis,
identifying
potential
target.
These
findings
provide
may
guide
future
treatment
strategies.
Biological Chemistry,
Год журнала:
2025,
Номер
unknown
Опубликована: Март 28, 2025
Abstract
Mitochondrial
functions
and
biogenesis
depend
on
the
import
of
more
than
1,000
proteins
which
are
synthesized
as
precursor
cytosolic
ribosomes.
protein
translocases
sort
into
mitochondrial
sub-compartments:
outer
inner
membrane,
intermembrane
space
matrix.
The
translocase
membrane
(TOM
complex)
constitutes
major
site
for
most
these
proteins.
Defective
translocases,
premature
folding
precursor,
or
depletion
potential
can
cause
clogging
TOM
channel
by
a
protein.
This
impairs
further
leads
to
accumulation
in
cell
that
perturbates
homeostasis,
leading
proteotoxic
stress
cell.
Therefore,
unclogging
translocon
is
critical
maintaining
cellular
function.
Ubiquitylation
AAA-ATPases
play
central
role
extraction
deliver
them
proteasome
degradation.
Here
we
summarize
our
understanding
molecular
mechanisms
remove
such
translocation-stalled
from
translocation
regenerate
complex
import.
Nature Communications,
Год журнала:
2025,
Номер
16(1)
Опубликована: Апрель 22, 2025
Thousands
of
nucleus-encoded
chloroplast
proteins
are
synthesized
as
precursors
on
cytosolic
ribosomes
and
posttranslationally
imported
into
chloroplasts.
Cytosolic
accumulation
unfolded
precursor
(e.g.,
under
stress
conditions)
is
hazardous
to
the
cell.
The
global
cellular
responses
regulatory
pathways
involved
in
triggering
appropriate
largely
unknown.
Here,
by
inducible
constitutive
overexpression
ClpD-GFP
result
protein
overaccumulation,
we
present
a
comprehensive
picture
multilevel
reprogramming
gene
expression
response
overaccumulation
(cPOS),
reveal
critical
role
translational
activation
chaperones
(heat-shock
proteins,
HSPs),
demonstrate
that
chloroplast-derived
reactive
oxygen
species
act
retrograde
signal
for
transcriptional
small
HSPs.
Furthermore,
an
important
chaperone
ClpB1/HOT1
maintaining
proteostasis
upon
cPOS.
Together,
our
observations
uncover
heat
shock-like
cPOS
provide
insights
underlying
molecular
mechanisms.
