Cell Death Discovery,
Journal Year:
2025,
Volume and Issue:
11(1)
Published: Jan. 18, 2025
A
new
type
of
nonapoptotic,
iron-dependent
cell
death
induced
by
lipid
peroxidation
is
known
as
ferroptosis.
Numerous
pathological
processes,
including
inflammation
and
cancer,
have
been
demonstrated
to
be
influenced
changes
in
the
ferroptosis-regulating
network.
Long
non-coding
RNAs
(LncRNAs)
are
a
group
functional
RNA
molecules
that
not
translated
into
proteins,
which
can
regulate
gene
expression
various
manners.
An
increasing
number
studies
shown
lncRNAs
interfere
with
progression
ferroptosis
modulating
ferroptosis-related
genes
directly
or
indirectly.
Despite
evidence
implicating
cancer
inflammation,
on
their
mechanisms
therapeutic
potential
remain
scarce.
We
investigate
lncRNA-mediated
regulation
immunity,
assessing
feasibility
challenges
targets
these
conditions.
Cell Death Discovery,
Journal Year:
2022,
Volume and Issue:
8(1)
Published: Dec. 29, 2022
Ferroptosis
is
a
new
iron-dependent
form
of
programmed
cell
death
characterized
by
iron
accumulation
and
lipid
peroxidation.
In
recent
years,
ferroptosis
has
garnered
enormous
interest
in
disease
treatment
research
communities
pursuit
to
reveal
the
mechanism
key
targets
because
closely
related
pathophysiological
processes
many
diseases.
Recent
studies
have
shown
some
targets,
such
as
glutathione
peroxidase
4
(GPX4)
System
Xc-,
several
inducers
inhibitors
been
developed
regulate
these
targets.
With
emergence
on
made
developments.
The
selection
use
are
very
important
for
work.
This
paper
briefly
introduces
regulatory
metabolic
pathway,
lists
categorizes
commonly
used
recently
inhibitors,
discusses
their
medical
application.
ends
with
potential
future
direction
ferroptosis.
Journal of Experimental & Clinical Cancer Research,
Journal Year:
2022,
Volume and Issue:
41(1)
Published: Oct. 20, 2022
Ferroptosis
is
a
novel
form
of
iron-dependent
cell
death
and
participates
in
the
malignant
progression
glioblastoma
(GBM).
Although
circular
RNAs
(circRNAs)
are
found
to
play
key
roles
ferroptosis
via
several
mechanisms,
including
regulating
iron
metabolism,
glutathione
lipid
peroxidation
mitochondrial-related
proteins,
there
many
circRNAs
need
be
found,
they
may
become
new
molecular
treatment
target
GBM.The
expression
levels
circLRFN5,
PRRX2
GCH1
were
detected
by
qPCR,
western
blotting,
immunohistochemistry.
Lentiviral-based
infections
used
overexpress
or
knockdown
these
molecules
glioma
stem
cells
(GSCs).
The
biological
functions
on
GSCs
MTS
(3-(4,
5-dimethylthiazol-2-yl)-5-(3-carboxymethoxyphenyl)-2-(4-sulfophenyl)-2H
tetrazolium),
5-ethynyl-20-deoxyuridine
(EdU)
incorporation
assay,
transwell,
neurosphere
formation
assays,
Extreme
Limiting
Dilution
Analysis
(ELDA)
xenograft
experiments.
content
was
BODIPY
581/591
C11
(GSH)
assay
malondialdehyde
(MDA)
assay.
mechanisms
among
studied
RNA
immunoprecipitation
pull-down
ubiquitination
dual-luciferase
reporter
chromatin
assay.We
circRNA
circLRFN5
downregulated
GBM
associated
with
patients'
poor
prognosis.
CircLRFN5
overexpression
inhibits
viabilities,
proliferation,
neurospheres
formation,
stemness
tumorigenesis
inducing
ferroptosis.
Mechanistically,
binds
protein
promotes
its
degradation
ubiquitin-mediated
proteasomal
pathway.
can
transcriptionally
upregulate
GSCs,
which
suppressor
generating
antioxidant
tetrahydrobiopterin
(BH4).Our
study
as
tumor-suppressive
identified
role
GBM.
potential
biomarker
for
therapies
ferroptosis-dependent
therapy
Signal Transduction and Targeted Therapy,
Journal Year:
2023,
Volume and Issue:
8(1)
Published: Dec. 10, 2023
Abstract
Ferroptosis,
a
unique
modality
of
cell
death
with
mechanistic
and
morphological
differences
from
other
modes,
plays
pivotal
role
in
regulating
tumorigenesis
offers
new
opportunity
for
modulating
anticancer
drug
resistance.
Aberrant
epigenetic
modifications
posttranslational
(PTMs)
promote
resistance,
cancer
progression,
metastasis.
Accumulating
studies
indicate
that
can
transcriptionally
translationally
determine
vulnerability
to
ferroptosis
functions
as
driver
nervous
system
diseases
(NSDs),
cardiovascular
(CVDs),
liver
diseases,
lung
kidney
diseases.
In
this
review,
we
first
summarize
the
core
molecular
mechanisms
ferroptosis.
Then,
roles
processes,
including
histone
PTMs,
DNA
methylation,
noncoding
RNA
regulation
such
phosphorylation,
ubiquitination,
SUMOylation,
acetylation,
ADP-ribosylation,
are
concisely
discussed.
The
PTMs
genesis
cancers,
NSD,
CVDs,
well
application
PTM
modulators
therapy
these
then
discussed
detail.
Elucidating
mediated
by
will
facilitate
development
promising
combination
therapeutic
regimens
containing
or
PTM-targeting
agents
inducers
be
used
overcome
chemotherapeutic
resistance
could
prevent
addition,
highlight
potential
approaches
chemoresistance
halt
Bioactive Materials,
Journal Year:
2023,
Volume and Issue:
32, P. 66 - 97
Published: Sept. 29, 2023
Ferroptosis
offers
a
novel
method
for
overcoming
therapeutic
resistance
of
cancers
to
conventional
cancer
treatment
regimens.
Its
effective
use
as
therapy
requires
precisely
targeted
approach,
which
can
be
facilitated
by
using
nanoparticles
and
nanomedicine,
their
enhance
ferroptosis
is
indeed
growing
area
research.
While
few
review
papers
have
been
published
on
iron-dependent
mechanism
inducers
that
partly
covers
nanoparticles,
there
need
comprehensive
focusing
the
design
magnetic
typically
supply
iron
ions
promote
simultaneously
enable
nanomedicine.
Furthermore,
locally
induce
combinational
with
diagnostic
resonance
imaging
(MRI).
The
remotely
controllable
nanocarriers
offer
highly
localized
image-guided
Here,
recent
developments
in
magnetically
manipulable
nanomedicine
medical
are
summarized.
This
also
highlights
advantages
current
state-of-the-art
Finally,
image
guided
apoptosis-based
enables
synergistic
tumor
discussed
clinical
translations.
Cancer Letters,
Journal Year:
2024,
Volume and Issue:
587, P. 216701 - 216701
Published: Feb. 16, 2024
A
new
class
of
noncoding
RNAs,
tsRNAs
are
not
only
abundant
in
humans
but
also
have
high
tissue
specificity.
Recently,
an
increasing
number
studies
explored
the
correlations
between
and
tumors,
showing
that
can
affect
biological
behaviors
tumor
cells,
such
as
proliferation,
apoptosis
metastasis,
by
modulating
protein
translation,
RNA
transcription
or
posttranscriptional
regulation.
In
addition,
widely
distributed
stably
expressed,
which
endows
them
with
broad
application
prospects
diagnosing
predicting
prognosis
they
expected
to
become
biomarkers.
However,
notably,
current
research
on
still
faces
problems
need
be
solved.
this
review,
we
describe
characteristics
well
their
unique
features
functions
tumors.
Moreover,
discuss
potential
opportunities
challenges
clinical
applications
tsRNAs.
Biology of the Cell,
Journal Year:
2025,
Volume and Issue:
117(1)
Published: Jan. 1, 2025
Ferroptosis
is
a
type
of
cell
death
that
multiple
mechanisms
and
pathways
contribute
to
the
positive
negative
regulation
it.
For
example,
increased
levels
reactive
oxygen
species
(ROS)
induce
ferroptosis.
ferroptosis
unlike
apoptosis,
it
not
dependent
on
caspases,
but
iron.
Exosomes
are
membrane-bound
vesicles
with
size
about
30
150
nm,
contain
various
cellular
components,
including
DNA,
RNA,
microRNAs
(miRNAs),
lipids,
proteins,
which
genetically
similar
their
cells
origin.
found
in
all
bodily
fluids,
blood,
saliva,
urine.
Cells
often
release
exosomes
after
fusion
membrane.
They
play
an
important
role
immune
cell-cell
communication.
miRNAs,
noncoding
RNAs
length
18
24
nucleotides,
involved
regulating
gene
expression
transcription.
Emerging
data
suggests
exosomal
miRNAs
implicated
pathophysiological
cells,
metastasis,
drug
resistance,
death.
In
addition,
functional
studies
have
indicated
can
key
modulation
by
Therefore,
this
review,
given
importance
ferroptosis,
we
decided
elucidate
relationship
between
diseases.
Free Radical Biology and Medicine,
Journal Year:
2022,
Volume and Issue:
193, P. 202 - 212
Published: Oct. 10, 2022
Ferroptosis
is
a
novel
form
of
regulated
cell
death
characterized
by
the
iron-dependent
accumulation
lipid
peroxides
to
lethal
levels,
which
morphologically,
biochemically,
and
genetically
distinct
from
apoptosis,
necroptosis,
autophagy,
pyroptosis.
Manganese
play
an
important
role
in
innate
immunity
antitumor
immunity.
Many
manganese-based
nanomaterials
induce
tumor
catalyzing
production
reactive
oxygen
species
(ROS)
within
tumor.
However,
exact
underlying
mechanisms
remain
unclear.
As
research
on
ferroptosis
advances
its
regulatory
tumors
continue
be
refined,
more
evidence
has
suggested
that
triggering
cells
effective
strategy
for
treatment.
In
this
study,
we
found
administration
MnCl2
resulted
peroxidation
increased
levels
mitochondrial
ROS,
consequently
leading
ferroptosis.
Dihydroorotate
dehydrogenase
(DHODH)-mediated
defence
targetable
vulnerability
cancer.
We
show
downregulated
DHODH
expression
cells,
resulting
ROS
addition,
enhanced
phosphorylation
STING,
TBK1,
IRF3
upregulated
type-I
interferon
(IFN),
produced
cGAS-STING
signaling
pathway.
When
inhibiting
pathway
or
IFN,
was
restored,
reversing
rescuing
MnCl2-induced
ferroptosis..
Knockout
IFNAR1
overexpression
weakens
effect
MnCl2.
Mechanistically,
these
results
revealed
treatment-activated
promote
releasing
IFNs
reduce
function
thereby
inducing
cells.
This
may
provide
new
complement
existing
treatment
regimens.
Journal of Experimental & Clinical Cancer Research,
Journal Year:
2023,
Volume and Issue:
42(1)
Published: May 19, 2023
Abstract
Background
Ferroptosis
has
been
linked
to
tumor
progression
and
resistance
antineoplastic
therapy.
Long
noncoding
RNA
(lncRNA)
exerts
a
regulatory
role
in
various
biological
processes
of
cells,
while
the
function
molecular
mechanism
lncRNA
ferroptosis
are
yet
be
clarified
glioma.
Methods
Both
gain-of-function
loss-of-function
experiments
were
employed
investigate
effects
SNAI3-AS1
on
tumorigenesis
susceptibility
glioma
vitro
vivo.
Bioinformatics
analysis,
Bisulfite
sequencing
PCR,
pull-down,
RIP,
MeRIP
dual-luciferase
reporter
assay
performed
explore
low
expression
downstream
Results
We
found
that
inducer
erastin
downregulates
by
increasing
DNA
methylation
level
promoter.
functions
as
suppressor
Importantly,
enhances
anti-tumor
activity
promoting
both
Mechanistically,
competitively
binds
SND1
perturbs
m
6
A-dependent
recognition
Nrf2
mRNA
3’UTR
SND1,
thereby
reducing
stability
Nrf2.
Rescue
confirmed
overexpression
silence
can
rescue
gain-
ferroptotic
phenotypes
SNAI3-AS1,
respectively.
Conclusions
Our
findings
elucidate
effect
detailed
SNAI3-AS1/SND1/Nrf2
signalling
axis
ferroptosis,
provide
theoretical
support
for
inducing
improve
treatment.
Cell Death and Disease,
Journal Year:
2023,
Volume and Issue:
14(6)
Published: June 13, 2023
Abstract
Hepatocellular
carcinoma
(HCC)
is
the
most
common
type
of
primary
hepatic
carcinoma,
which
a
growing
public
health
problem
worldwide.
One
main
genetic
alterations
in
HCC
deregulated
Wnt/β-catenin
signaling,
activation
β-catenin
associated
with
progression
HCC.
In
present
study,
we
aimed
to
identify
novel
modulators
controlling
ubiquitination
and
stability.
USP8
was
overexpressed
tissues
correlated
protein
level.
High
expression
indicated
poor
prognosis
patients.
depletion
significantly
decreased
level,
target
genes
TOP-luciferase
activity
cells.
Further
mechanistic
study
revealed
that
USP
domain
interacted
ARM
β-catenin.
stabilized
via
inhibiting
K48-specific
poly-ubiquitination
process
on
protein.
addition,
inhibited
proliferation,
invasion
stemness
cells
conferred
ferroptosis
resistance,
effects
could
be
further
rescued
by
overexpression.
inhibitor
DUB-IN-3
aggressive
phenotype
promoted
through
degradation
Thus,
our
demonstrated
activated
Wnt/beta-catenin
signaling
post-translational
mechanism
Targeting
may
serve
as
promising
strategy
for
patients
