Medicine,
Journal Year:
2025,
Volume and Issue:
104(3), P. e41218 - e41218
Published: Jan. 17, 2025
Parkinson
disease
(PD)
is
the
second
most
common
neurodegenerative
disease,
and
its
incidence
climbing
every
year,
but
there
still
a
lack
of
effective
clinical
treatments.
In
recent
years,
many
studies
have
shown
that
ferroptosis
plays
key
role
in
progression
PD.
Most
importantly,
cellular
animal
trials
episodes
PD
can
be
alleviated
by
inhibiting
process,
such
as
utilizing
inhibitors,
chelating
agents,
others.
Here,
we
review
ferroptosis,
new
form
cell
death,
pathogenesis
PD,
summarize
therapeutic
strategies
for
targeting
hoping
to
provide
thinking
study
development
strategies.
Antioxidants,
Journal Year:
2024,
Volume and Issue:
13(4), P. 395 - 395
Published: March 26, 2024
Central
neurological
disorders
are
significant
contributors
to
morbidity,
mortality,
and
long-term
disability
globally
in
modern
society.
These
encompass
neurodegenerative
diseases,
ischemic
brain
traumatic
injury,
epilepsy,
depression,
more.
The
involved
pathogenesis
is
notably
intricate
diverse.
Ferroptosis
neuroinflammation
play
pivotal
roles
elucidating
the
causes
of
cognitive
impairment
stemming
from
these
diseases.
Given
concurrent
occurrence
ferroptosis
due
metabolic
shifts
such
as
iron
ROS,
well
their
critical
central
nervous
disorders,
investigation
into
co-regulatory
mechanism
has
emerged
a
prominent
area
research.
This
paper
delves
mechanisms
along
with
interrelationship.
It
specifically
emphasizes
core
molecules
within
shared
pathways
governing
neuroinflammation,
including
SIRT1,
Nrf2,
NF-κB,
Cox-2,
iNOS/NO·,
how
different
immune
cells
structures
contribute
dysfunction
through
mechanisms.
Researchers’
findings
suggest
that
mutually
promote
each
other
may
represent
key
factors
progression
disorders.
A
deeper
comprehension
common
pathway
between
cellular
holds
promise
for
improving
symptoms
prognosis
related
Frontiers in Pharmacology,
Journal Year:
2024,
Volume and Issue:
15
Published: May 23, 2024
Ferroptosis
is
a
non-apoptotic
mode
of
programmed
cell
death
characterized
by
iron
dependence
and
lipid
peroxidation.
Since
the
ferroptosis
was
proposed,
researchers
have
revealed
mechanisms
its
formation
continue
to
explore
effective
inhibitors
in
disease.
Recent
studies
shown
correlation
between
pathological
neurodegenerative
diseases,
as
well
diseases
involving
tissue
or
organ
damage.
Acting
on
ferroptosis-related
targets
may
provide
new
strategies
for
treatment
ferroptosis-mediated
diseases.
This
article
specifically
describes
metabolic
pathways
summarizes
reported
action
natural
synthetic
small
molecule
their
efficacy
The
paper
also
treatments
such
gene
therapy,
nanotechnology,
summarises
challenges
encountered
clinical
translation
inhibitors.
Finally,
relationship
other
modes
discussed,
hopefully
paving
way
future
drug
design
discovery.
Antioxidants,
Journal Year:
2024,
Volume and Issue:
13(3), P. 298 - 298
Published: Feb. 28, 2024
Ferroptosis
is
a
type
of
programmed
cell
death
that
differs
from
apoptosis,
autophagy,
and
necrosis
related
to
several
physio-pathological
processes,
including
tumorigenesis,
neurodegeneration,
senescence,
blood
diseases,
kidney
disorders,
ischemia–reperfusion
injuries.
linked
iron
accumulation,
eliciting
dysfunction
antioxidant
systems,
which
favor
the
production
lipid
peroxides,
membrane
damage,
ultimately,
death.
Thus,
signaling
pathways
evoking
ferroptosis
are
strongly
associated
with
those
protecting
cells
against
excess
and/or
lipid-derived
ROS.
Here,
we
discuss
interaction
between
metabolic
particular
focus
on
transcription
factors
implicated
in
regulation
ferroptosis,
either
as
triggers
peroxidation
or
defense
pathways.
Brain Sciences,
Journal Year:
2024,
Volume and Issue:
14(1), P. 88 - 88
Published: Jan. 17, 2024
Calcium
and
iron
are
essential
elements
that
regulate
many
important
processes
of
eukaryotic
cells.
Failure
to
maintain
homeostasis
calcium
causes
cell
dysfunction
or
even
death.
PD
(Parkinson’s
disease)
is
the
second
most
common
neurological
disorder
in
humans,
for
which
there
currently
no
viable
treatment
options
effective
strategies
cure
delay
progression.
Pathological
hallmarks
PD,
such
as
dopaminergic
neuronal
death
intracellular
α-synuclein
deposition,
closely
involved
perturbations
accumulation.
Here,
we
summarize
mechanisms
by
Ca2+
signaling
influences
promotes
progression
main
ferroptosis
Parkinson’s
disease.
Understanding
imbalances
contribute
this
disease
critical
developing
treatments
combat
devastating
disorder.
Brain Behavior and Immunity,
Journal Year:
2025,
Volume and Issue:
unknown
Published: Feb. 1, 2025
Various
forms
of
neuronal
death
contribute
to
neurological
injury
after
traumatic
brain
(TBI),
leading
irreversible
deficits.
Among
these,
ferroptosis
is
a
form
regulated
cell
characterized
by
the
accumulation
iron-dependent
lipid
hydroperoxides
and
induced
incorporation
polyunsaturated
fatty
acids
(PUFAs)
into
cellular
membranes.
Adiponectin
(APN),
cytokine
secreted
adipocytes,
have
showed
neuroprotective
effects
binding
adiponectin
receptors
(AdipoRs),
which
are
widely
expressed
in
central
nervous
system.
However,
role
TBI
APN-AdipoRs
signaling
remains
unexplored.
Our
clinical
analysis
revealed
significant
correlation
between
serum
levels
APN
6-month
outcomes
patients.
Subsequent
studies
confirmed
that
TBI-induced
was
more
pronounced
knockout
mice
compared
wild-type
mice,
while
additional
receptor
agonist
(AdipoRon)
treatment
significantly
mitigated
ferroptosis.
Furthermore,
AdipoR1
knockdown
diminished
protective
AdipoRon
against
erastin-induced
primary
neurons.
Correspondingly,
neuron-specific
conditional
(AdipoR1CKO)
neurons
were
susceptible
TBI,
increased
edema
lesion
volume,
exacerbated
Mechanically,
activation
APN-AdipoR1
promoted
adenosine
monophosphate
activated
protein
kinase
(AMPK)
-mediated
phosphorylation
acetyl-CoA
carboxylase-1
(ACC1),
thus
suppressed
PUFAs
biosynthesis,
determines
theferroptosissensitivity
Taken
together,
these
findings
provided
compelling
evidence
for
inhibiting
AMPK-ACC1.
Brain Research Bulletin,
Journal Year:
2024,
Volume and Issue:
213, P. 110991 - 110991
Published: May 31, 2024
Neurodegenerative
diseases
such
as
Parkinson's
disease
(PD)
have
complex
pathogenetic
mechanisms.
Genetic,
age,
and
environmental
factors
are
all
related
to
PD.
Due
the
unclear
pathogenesis
of
PD
lack
effective
cure
methods,
it
is
urgent
find
new
targets
for
treating
patients.
Ferroptosis
a
form
cell
death
that
reliant
on
iron
exhibits
distinct
morphological
mechanistic
characteristics
compared
other
types
death.
It
encompasses
range
biological
processes,
including
iron/lipid
metabolism
oxidative
stress.
In
recent
years,
research
has
found
ferroptosis
plays
crucial
role
in
pathophysiological
processes
neurodegenerative
stroke.
Therefore,
also
closely
PD,
This
article
reviews
core
mechanisms
elucidates
correlation
between
ferroptosis.
addition,
compounds
emerged
years
exert
anti
effects
by
inhibiting
signaling
pathway
were
summarized.
I
hope
further
elaborate
relationship
through
review
this
article,
provide
strategies
developing
treatments
targeting
Phytotherapy Research,
Journal Year:
2024,
Volume and Issue:
38(4), P. 2041 - 2076
Published: Feb. 23, 2024
Abstract
In
recent
years,
heightened
interest
surrounds
the
exploration
of
natural
phenols
as
potential
agents
for
cancer
therapy,
specifically
by
inducing
ferroptosis,
a
unique
form
regulated
cell
death
characterized
iron‐dependent
lipid
peroxidation.
This
review
delves
into
roles
key
phenols,
flavonoids,
phenolic
acids,
curcumin,
and
stilbenes,
in
modulating
ferroptosis
their
underlying
mechanisms.
Emphasizing
significance
amino
acid,
lipid,
iron
metabolism,
study
elucidates
diverse
pathways
through
which
these
regulate
ferroptosis.
Notably,
well‐known
polyphenol,
exhibits
multifaceted
interactions
with
cellular
components
involved
regulation,
providing
distinctive
therapeutic
avenue.
Stilbenes,
another
class,
demonstrate
promising
influencing
metabolism
processes,
contributing
to
ferroptotic
death.
Understanding
intricate
interplay
between
not
only
illuminates
complex
regulatory
networks
but
also
unveils
avenues
novel
therapies.
Exploring
compounds
inducers
presents
strategy
targeted
treatment,
capitalizing
on
delicate
balance
article
synthesizes
current
knowledge,
aiming
stimulate
further
research
context
ferroptosis‐mediated
therapy.
