International Journal of Molecular Sciences,
Journal Year:
2023,
Volume and Issue:
24(21), P. 15995 - 15995
Published: Nov. 6, 2023
Researchers
are
amazed
at
the
multitude
of
biological
effects
3′,4′,5,7-tetrahydroxyflavone,
more
commonly
known
as
luteolin,
it
simultaneously
has
antioxidant
and
pro-oxidant,
well
antimicrobial,
anti-inflammatory,
cancer-preventive,
properties.
The
anticancer
properties
luteolin
constitute
a
mosaic
pathways
due
to
which
this
flavonoid
influences
cancer
cells.
Not
only
is
able
induce
apoptosis
inhibit
cell
proliferation,
but
also
suppresses
angiogenesis
metastasis.
Moreover,
succeeds
in
sensitization
therapeutically
induced
cytotoxicity.
Nevertheless,
apart
from
its
promising
role
chemoprevention,
exhibits
numerous
potential
utilizations
patients
with
conditions
other
than
neoplasms,
include
inflammatory
skin
diseases,
diabetes
mellitus,
COVID-19.
This
review
aims
present
multidimensionality
luteolin’s
impact
on
both
neoplastic
nonneoplastic
diseases.
When
comes
we
intend
describe
complexity
molecular
mechanisms
that
underlay
effectiveness,
prove
usefulness
integrating
therapy
via
analysis
recent
research
breast,
colon,
lung
cancer.
Regarding
emphasize
importance
researching
areas
such
diabetology,
virology,
dermatology
summarizes
most
important
discoveries
those
fields
regarding
application.
The World Journal of Men s Health,
Journal Year:
2019,
Volume and Issue:
37(3), P. 296 - 296
Published: Jan. 1, 2019
Despite
advances
in
the
field
of
male
reproductive
health,
idiopathic
infertility,
which
a
man
has
altered
semen
characteristics
without
an
identifiable
cause
and
there
is
no
female
factor
remains
challenging
condition
to
diagnose
manage.Increasing
evidence
suggests
that
oxidative
stress
(OS)
plays
independent
role
etiology
with
30%
80%
infertile
men
having
elevated
seminal
reactive
oxygen
species
levels.OS
can
negatively
affect
fertility
via
number
pathways,
including
interference
capacitation
possible
damage
sperm
membrane
DNA,
may
impair
sperm's
potential
fertilize
egg
develop
into
healthy
embryo.Adequate
evaluation
should
therefore
include
assessment
OS.We
propose
term
Male
Oxidative
Stress
Infertility,
or
MOSI,
as
novel
descriptor
for
abnormal
OS,
many
patients
who
were
previously
classified
infertility.Oxidation-reduction
(ORP)
be
useful
clinical
biomarker
classification
it
takes
account
levels
both
oxidants
reductants
(antioxidants).Current
treatment
protocols
use
antioxidants,
are
not
evidence-based
have
complications
increased
healthcare-related
expenditures.Utilizing
easy,
reproducible,
cost-effective
Antioxidants and Redox Signaling,
Journal Year:
2019,
Volume and Issue:
32(18), P. 1330 - 1347
Published: June 20, 2019
Significance:
Reducing
equivalents
(NAD(P)H
and
glutathione
[GSH])
are
essential
for
maintaining
cellular
redox
homeostasis
modulating
metabolism.
Reductive
stress
induced
by
excessive
levels
of
reduced
NAD+
(NADH),
NADP+
(NADPH),
GSH
is
as
harmful
oxidative
implicated
in
many
pathological
processes.
Recent
Advances:
broadens
our
view
the
importance
influences
an
imbalanced
niche
on
biological
functions,
including
cell
Critical
Issues:
The
distribution
NAD(H),
NADP(H),
GSH/GSH
disulfide
highly
compartmentalized.
Understanding
how
cells
coordinate
different
pools
couples
under
unstressed
stressed
conditions
critical
a
comprehensive
stress.
It
also
to
explore
underlying
mechanisms
reductive
its
consequences,
effects
energy
Future
Directions:
studies
needed
investigate
affects
metabolism
adapt
their
Whether
or
not
NADH
shuttles
mitochondrial
nicotinamide
nucleotide
transhydrogenase
enzyme
can
regulate
hypoxia-induced
worthy
pursuit.
Developing
strategies
(e.g.,
antireductant
approaches)
counteract
related
adverse
consequences
requires
extensive
future
efforts.
International Journal of Molecular Sciences,
Journal Year:
2021,
Volume and Issue:
22(4), P. 1786 - 1786
Published: Feb. 11, 2021
Oxidative
stress
is
important
in
the
pathophysiology
of
obesity,
altering
regulatory
factors
mitochondrial
activity,
modifying
concentration
inflammation
mediators
associated
with
a
large
number
and
size
adipocytes,
promoting
lipogenesis,
stimulating
differentiation
preadipocytes
to
mature
regulating
energy
balance
hypothalamic
neurons
that
control
appetite.
This
review
discusses
participation
oxidative
obesity
groups
compounds
found
plants
antioxidant
properties,
which
include
(a)
polyphenols
such
as
phenolic
acids,
stilbenes,
flavonoids
(flavonols,
flavanols,
anthocyanins,
flavanones,
flavones,
flavanonols,
isoflavones),
curcuminoids
(b)
carotenoids,
(c)
capsaicinoids
casinoids,
(d)
isothiocyanates,
(e)
catechins,
(f)
vitamins.
Examples
are
analyzed,
resveratrol,
quercetin,
curcumin,
ferulic
acid,
phloretin,
green
tea,
Hibiscus
Sabdariffa,
garlic.
The
activities
these
depend
on
their
reactive
oxygen
species
(ROS)
scavengers
capacity
prevent
activation
NF-κB
(nuclear
factor
κ-light-chain-enhancer
activated
B
cells),
reduce
expression
target
genes,
including
those
participating
inflammation.
We
conclude
natural
have
therapeutic
potential
for
diseases
mediated
by
stress,
particularly
obesity.
Controlled
well-designed
clinical
trials
still
necessary
better
know
effects
compounds.
Medicinal Research Reviews,
Journal Year:
2020,
Volume and Issue:
41(2), P. 770 - 784
Published: July 13, 2020
Abstract
The
world's
population
aging
progression
renders
age‐related
neurodegenerative
diseases
to
be
one
of
the
biggest
unsolved
problems
modern
society.
Despite
progress
in
studying
development
pathology,
finding
ways
for
modifying
disorders
remains
a
high
priority.
One
common
feature
is
mitochondrial
dysfunction
and
overproduction
reactive
oxygen
species,
resulting
oxidative
stress.
Although
lipid
peroxidation
markers
stress,
it
also
plays
an
important
role
cell
physiology,
including
activation
phospholipases
stimulation
signaling
cascades.
Excessive
hallmark
most
Alzheimer's
disease,
Parkinson's
amyotrophic
lateral
sclerosis,
many
other
neurological
conditions.
products
have
been
shown
trigger
necrotic,
apoptotic,
more
specifically
stress‐related,
that
is,
ferroptosis
neuronal
death.
Here
we
discuss
involvement
mechanism
loss
some
novel
therapeutic
directions
oppose
it.
Oxidative Medicine and Cellular Longevity,
Journal Year:
2021,
Volume and Issue:
2021(1)
Published: Jan. 1, 2021
Schizophrenia
is
recognized
to
be
a
highly
heterogeneous
disease
at
various
levels,
from
genetics
clinical
manifestations
and
treatment
sensitivity.
This
heterogeneity
also
reflected
in
the
variety
of
oxidative
stress‐related
mechanisms
contributing
phenotypic
realization
manifestation
schizophrenia.
At
molecular
level,
these
are
supposed
include
genetic
causes
that
increase
susceptibility
individuals
stress
lead
gene
expression
dysregulation
caused
by
abnormal
regulation
redox‐sensitive
transcriptional
factors,
noncoding
RNAs,
epigenetic
favored
environmental
insults.
These
changes
form
basis
prooxidant
state
altered
redox
signaling
related
glutathione
deficiency
impaired
function
factors
(Nrf2,
NF‐
κ
B,
FoxO,
etc.).
cellular
mitochondrial
dysfunction
metabolic
abnormalities
contribute
aberrant
neuronal
development,
myelination,
neurotransmitter
anomalies,
parvalbumin‐positive
interneurons.
Immune
contributes
imbalance.
whole‐organism
all
ultimately
development
In
this
review,
we
consider
new
perspectives
associated
with
correction
imbalance
We
suggest
not
only
antioxidants
but
redox‐regulated
transcription
factor‐targeting
drugs
(including
Nrf2
FoxO
activators
or
B
inhibitors)
have
great
promise
But
it
necessary
develop
stratification
criteria
schizophrenia
patients
based
on
markers
for
administration
redox‐correcting
treatment.
Oxidative Medicine and Cellular Longevity,
Journal Year:
2022,
Volume and Issue:
2022, P. 1 - 23
Published: Oct. 19, 2022
Reactive
oxygen
species
(ROS)
are
bioproducts
of
cellular
metabolism.
There
is
a
range
molecules
with
oxidizing
properties
known
as
ROS.
Despite
those
being
implied
negatively
in
aging
and
numerous
diseases,
their
key
role
signaling
evident.
ROS
control
several
biological
processes
such
inflammation,
proliferation,
cell
death.
The
redox
underlying
these
events
one
characteristic
the
new
generation
scientists
aimed
at
defining
environment.
potential,
which
includes
balance
sources
antioxidant
system,
implies
an
important
target
for
understanding
cells’
fate
derived
from
signaling.
In
this
review,
we
summarized
chemical,
balance,
signaling,
implications
aging.
Advanced Functional Materials,
Journal Year:
2021,
Volume and Issue:
31(38)
Published: July 1, 2021
Abstract
2D
transition
metal
borides
(MBenes)
have
emerged
as
promising
post‐MXene
materials
with
potential
application
in
various
biotechnological
fields.
Although
they
possess
prospective
bioactive
properties
due
to
boron
their
structure,
the
experience
gained
from
MXenes
shows
that
an
in‐depth
understanding
of
biological
recognition
and
response
well
exploration
applications
are
highly
challenging.
This
makes
identification
most
MBenes
for
future
research
final
industrial
rather
complicated.
Herein,
differentiated
further
untangled
bioactivity‐generating
features.
It
is
expected
MBenes’
positive
or
negative
impact
on
living
organisms
different
types
cells
connect
morphological,
structural
physicochemical
features
context
relevant
environments.
Necessary
toxicological
data
also
highlighted,
which
key
aspects
enable
safe
biotechnology
nanomedicine.
Furthermore,
a
perspective
rational
development
design
novel
solutions
based
provided,
will
meet
legal
safety
requirements
nanomaterials.
In
this
regard,
work
unprecedented
contribution
toward
strategies
regulatory
MBene/MXene‐type
provides
inspiration
nanotoxicological
approaches
using
MBenes.
Food Science & Nutrition,
Journal Year:
2023,
Volume and Issue:
12(2), P. 675 - 693
Published: Dec. 1, 2023
Abstract
Reactive
oxygen
species
(ROS)
are
produced
under
normal
physiological
conditions
and
may
have
beneficial
harmful
effects
on
biological
systems.
ROS
involved
in
many
processes
such
as
differentiation,
proliferation,
necrosis,
autophagy,
apoptosis
by
acting
signaling
molecules
or
regulators
of
transcription
factors.
In
this
case,
maintaining
proper
cellular
levels
is
known
redox
homeostasis.
Oxidative
stress
occurs
because
the
imbalance
between
production
antioxidant
defenses.
Sources
include
mitochondria,
auto‐oxidation
glucose,
enzymatic
pathways
nicotinamide
adenine
dinucleotide
phosphate
reduced
(NAD[P]H)
oxidase.
The
possible
NF‐κB,
MAPKs,
PI3K‐Akt,
Keap1‐Nrf2‐ARE
pathway.
This
review
covers
literature
pertaining
to
strategies
inhibit
them.
Additionally,
summarizes
related
finding
inhibitors.
