Reviews in Cardiovascular Medicine,
Journal Year:
2025,
Volume and Issue:
26(3)
Published: March 25, 2025
The
prevalence
of
heart
failure
with
preserved
ejection
fraction
(HFpEF)
is
increasing
annually,
particularly
among
patients
metabolic
disorders
such
as
hypertension
and
diabetes.
However,
there
currently
no
treatment
capable
altering
the
natural
course
HFpEF.
Recently,
interplay
between
oxidative
stress
ferroptosis
in
cardiovascular
diseases
has
drawn
extensive
attention;
however,
minimal
research
been
published
on
mechanisms
This
paper
reviews
relevant
through
which
induced
promotes
during
development
review
also
explores
more
efficacious
approaches
for
HFpEF
by
inhibiting
ferroptosis,
thereby
offering
a
theoretical
foundation
verifying
feasibility
these
methods
further
research.
As
tumor-targeted
therapy
progresses,
survival
period
tumor
prolonged,
events
have
gradually
emerged
one
most
crucial
causes
death
patients.
Hence,
vascular
endothelial
growth
factor
(VEGF)
pathway
become
major
target
treatment,
significantly
enhancing
patient
survival.
Nevertheless,
secondary
complications
events,
myocardial
injury
subsequent
failure,
severely
impacted
quality
life.
Therefore
we
explored
potential
mechanism
novel
targeted
anti-cancer
drugs
induce
via
ferroptosis.
Additionally,
reviewed
specific
modes
action
preventing
treating
without
influencing
their
therapeutic
effect.
Redox Biology,
Journal Year:
2023,
Volume and Issue:
67, P. 102871 - 102871
Published: Sept. 7, 2023
Ferroptosis
is
a
newly
discovered
form
of
iron-dependent
oxidative
cell
death
and
drives
the
loss
neurons
in
spinal
cord
injury
(SCI).
Mitochondrial
damage
critical
contributor
to
neuronal
death,
while
mitochondrial
quality
control
(MQC)
an
essential
process
for
maintaining
homeostasis
promote
survival.
However,
role
MQC
ferroptosis
has
not
been
clearly
elucidated.
Here,
we
further
demonstrate
that
primarily
suffer
from
SCI
at
single
sequencing
level.
Mechanistically,
disordered
aggravates
through
excessive
fission
mitophagy.
Furthermore,
mesenchymal
stem
cells
(MSCs)-mediated
transfer
restores
mitochondria
pool
inhibits
fusion
by
intercellular
tunneling
nanotubes.
Collectively,
these
results
only
suggest
regulated
MQC-dependent
manner,
but
also
fulfill
molecular
mechanism
which
MSCs
attenuate
subcellular
organelle
More
importantly,
it
provides
promising
clinical
translation
strategy
based
on
cell-mediated
therapy
mitochondria-related
central
nervous
system
disorders.
Biomedicine & Pharmacotherapy,
Journal Year:
2023,
Volume and Issue:
167, P. 115652 - 115652
Published: Oct. 4, 2023
Mitochondria
maintain
the
normal
physiological
function
of
nerve
cells
by
producing
sufficient
cellular
energy
and
performing
crucial
roles
in
maintaining
metabolic
balance
through
intracellular
Ca2+
homeostasis,
oxidative
stress,
axonal
development.
Depression
is
a
prevalent
psychiatric
disorder
with
an
unclear
pathophysiology.
Damage
to
hippocampal
neurons
key
component
plasticity
regulation
synapses
plays
critical
role
mechanism
depression.
There
evidence
suggesting
that
mitochondrial
dysfunction
associated
synaptic
impairment.
The
maintenance
homeostasis
includes
quantitative
quality
control
mitochondria.
Mitochondrial
biogenesis
produces
new
healthy
mitochondria,
dynamics
cooperates
mitophagy
remove
damaged
These
processes
population
stability
exert
neuroprotective
effects
against
early
In
contrast,
observed
various
brain
regions
patients
major
depressive
disorders.
accumulation
defective
mitochondria
accelerates
dysfunction.
addition,
impaired
aggravate
alterations
microenvironment,
promoting
neuroinflammation
depletion,
thereby
exacerbating
development
This
review
summarizes
influence
underlying
molecular
pathways
on
pathogenesis
Additionally,
we
discuss
as
potential
therapeutic
strategy
for
Redox Biology,
Journal Year:
2024,
Volume and Issue:
74, P. 103194 - 103194
Published: May 16, 2024
Elevated
lactate
levels
are
a
significant
biomarker
of
sepsis
and
positively
associated
with
sepsis-related
mortality.
Sepsis-associated
lung
injury
(ALI)
is
leading
cause
poor
prognosis
in
clinical
patients.
However,
the
underlying
mechanisms
lactate's
involvement
sepsis-associated
ALI
remain
unclear.
In
this
study,
we
demonstrate
that
regulates
N6-methyladenosine
(m6A)
modification
by
facilitating
p300-mediated
H3K18la
binding
to
METTL3
promoter
site.
The
METTL3-mediated
m6A
enriched
ACSL4,
its
mRNA
stability
regulated
through
YTHDC1-dependent
pathway.
Furthermore,
short-term
stimulation
upregulates
which
promotes
mitochondria-associated
ferroptosis.
Inhibition
knockdown
or
targeted
inhibition
effectively
suppresses
septic
hyper-lactate-induced
ferroptosis
alveolar
epithelial
cells
mitigates
mice.
Our
findings
suggest
induces
via
GPR81/H3K18la/METTL3/ACSL4
axis
during
ALI.
These
results
reveal
histone
lactylation-driven
mechanism
inducing
modification.
Targeting
represents
promising
therapeutic
strategy
for
patients
Frontiers in Medicine,
Journal Year:
2023,
Volume and Issue:
10
Published: Dec. 13, 2023
Ferroptosis
is
a
distinctive
form
of
iron-dependent
cell
death
characterized
by
significant
ultrastructural
changes
in
mitochondria.
Given
the
crucial
involvement
mitochondria
various
cellular
processes
such
as
reactive
oxygen
species
production,
energy
metabolism,
redox
status,
and
iron
mounting
evidence
suggests
vital
role
regulation
execution
ferroptosis.
Furthermore,
there
exists
strong
correlation
between
ferroptosis
diseases.
In
this
review,
we
aim
to
summarize
mechanisms
underlying
induction
defense
ferroptosis,
emphasizing
influence
on
intricate
process.
Additionally,
provide
an
overview
disease,
particularly
cancer,
elucidate
which
drugs
targeting
impact
By
presenting
theoretical
foundation
reference
point,
review
aims
contribute
both
basic
biology
research
investigation
clinically
relevant
Journal of Ovarian Research,
Journal Year:
2024,
Volume and Issue:
17(1)
Published: May 31, 2024
Abstract
In
women
who
are
getting
older,
the
quantity
and
quality
of
their
follicles
or
oocytes
decline.
This
is
characterized
by
decreased
ovarian
reserve
function
(DOR),
fewer
remaining
oocytes,
lower
oocytes.
As
more
choose
to
delay
childbirth,
decline
in
fertility
associated
with
age
has
become
a
significant
concern
for
modern
women.
The
oocyte
key
indicator
aging.
Many
studies
suggest
that
age-related
changes
energy
metabolism
may
impact
quality.
Changes
affect
adenosine
5'-triphosphate
(ATP)
production,
but
how
related
products
proteins
influence
remains
largely
unknown.
review
focuses
on
aging
its
potential
quality,
as
well
therapeutic
strategies
partially
metabolism.
research
aims
enhance
our
understanding
metabolism,
identification
biomarkers
treatment
methods.
Advanced Biology,
Journal Year:
2025,
Volume and Issue:
unknown
Published: April 9, 2025
Abstract
Ferroptosis,
as
novel
type
of
regulated
cell
death
that
has
garnered
widespread
attention
over
the
past
decade,
witnessed
continuous
discovery
an
increasing
number
regulatory
mechanisms.
Trace
metal
elements
play
a
multifaceted
and
crucial
role
in
oncology.
Interestingly,
it
been
increasingly
evident
these
elements,
such
copper,
are
involved
regulation
iron
accumulation,
lipid
peroxidation
antiferroptotic
systems,
suggesting
existence
“nonferrous”
mechanisms
ferroptosis.
In
this
review,
comprehensive
overview
composition
mechanism
ferroptosis
is
provided.
The
interaction
between
copper
metabolism
(including
cuproptosis)
cancer,
well
roles
other
trace
(such
zinc,
manganese,
cobalt,
molybdenum)
specifically
focused.
Furthermore,
applications
nanomaterials
based
on
metals
cancer
therapy
also
reviewed
potential
strategies
for
co‐targeting
cuproptosis
explored.
Nevertheless,
light
intricate
ambiguous
nature
interactions,
ongoing
research
essential
to
further
elucidate
ferroptosis,
thereby
facilitating
development
therapeutic
targets
approaches
treatment.
