Biomedicine & Pharmacotherapy,
Год журнала:
2022,
Номер
155, С. 113829 - 113829
Опубликована: Окт. 7, 2022
Long-term
exposure
to
glucocorticoid
(GC)
contributes
the
development
of
osteoporosis
(OP),
which
is
correlated
with
risk
fracture.
Pathologically,
GC-induced
bone
loss
associated
osteoblast
apoptosis.
Geniposide
(GEN),
a
natural
occurring
compound
derived
from
Eucommia
ulmoides,
has
been
reported
ameliorate
dexamethasone
(DEX)-induced
OP.
Our
previous
study
shows
that
GEN
exhibits
protective
activity
against
DEX-induced
OP
by
attenuating
endoplasmic
reticulum
stress
and
decreasing
apoptosis
in
osteoblasts.
However,
molecular
mechanisms
inhibiting
still
need
further
elucidation.
In
this
article,
target
network
was
screened.
It
found
might
interact
mediating
PI3K/AKT
pathway,
upstream
factor
regulating
autophagy.
exhibited
activating
autophagy
vivo
vitro.
Blockage
autophagy,
activation
PI3K/AKT/mTOR
or
inhibition
GLP-1R
could
eliminate
effects
Collectively,
ameliorated
through
GLP-1R/PI3K/AKT/mTOR
pathway.
Biomedicine & Pharmacotherapy,
Год журнала:
2023,
Номер
164, С. 115015 - 115015
Опубликована: Июнь 15, 2023
Among
the
most
extensively
researched
processes
in
development
and
treatment
of
cancer
is
inflammatory
condition.
Although
acute
inflammation
essential
for
wound
healing
reconstruction
tissues
that
have
been
damaged,
chronic
may
contribute
to
onset
growth
a
number
diseases,
including
cancer.
By
disrupting
signaling
cells,
which
result
induction,
invasion,
development,
variety
molecules
are
linked
The
microenvironment
surrounding
tumor
greatly
influenced
by
cells
their
subsequent
secretions,
also
significantly
tumor's
growth,
survivability,
potential
migration.
These
variables
mentioned
several
publications
as
prospective
diagnostic
tools
anticipating
Targeting
with
various
therapies
can
reduce
response
potentially
limit
or
block
proliferation
cells.
scientific
medical
literature
from
past
three
decades
has
studied
determine
how
chemicals
cell
pathways
related
invasion
metastasis
related.
current
narrative
review
updates
relevant
while
highlighting
specifics
possible
therapeutic
possibilities.
Cancers,
Год журнала:
2023,
Номер
15(7), С. 2128 - 2128
Опубликована: Апрель 3, 2023
Despite
significant
therapeutic
advancements
for
cancer,
an
atrocious
global
burden
(for
example,
health
and
economic)
radio-
chemo-resistance
limit
their
effectiveness
result
in
unfavorable
consequences.
Natural
compounds
are
generally
considered
safer
than
synthetic
drugs,
use
cancer
treatment
alone,
or
combination
with
conventional
therapies,
is
increasingly
becoming
accepted.
Interesting
outcomes
from
pre-clinical
trials
using
Baicalein
medicines
have
been
reported,
some
of
them
also
undergone
clinical
later
stages.
As
a
result,
we
investigated
the
prospects
Baicalein,
naturally
occurring
substance
extracted
stems
Scutellaria
baicalensis
Georgi
Oroxylum
indicum
Kurz,
which
targets
wide
range
molecular
changes
that
involved
development.
In
other
words,
this
review
primarily
driven
by
findings
studies
therapy
several
cell
populations
based
on
promising
research.
The
modifications
numerous
signal
transduction
mechanisms
transcriptional
agents
highlighted
as
major
players
Baicalein’s
anti-malignant
properties
at
micro
level.
These
include
AKT
serine/threonine
protein
kinase
B
(AKT)
well
PI3K/Akt/mTOR,
matrix
metalloproteinases-2
&
9
(MMP-2
9),
Wnt/-catenin,
Poly(ADP-ribose)
polymerase
(PARP),
Mitogen-activated
(MAPK),
NF-κB,
Caspase-3/8/9,
Smad4,
Notch
1/Hes,
Signal
transducer
activator
transcription
3
(STAT3),
Nuclear
factor
erythroid
2-related
2
(Nrf2)/Kelch-like
ECH-associated
protein-1
(Keap
1),
Adenosine
monophosphate-activated
(AMPK),
Src/Id1,
ROS
signaling,
miR
183/ezrin,
Sonic
hedgehog
(Shh)
signaling
cascades.
promise
anti-inflammatory
to
anti-apoptotic/anti-angiogenic/anti-metastatic
medicinal
element
treating
various
malignancies
its
capability
inhibit
malignant
stem
cells,
evidence
synergistic
effects,
design
nanomedicine-based
drugs
altogether
supported
data
presented
study.
Redox Biology,
Год журнала:
2024,
Номер
75, С. 103302 - 103302
Опубликована: Авг. 6, 2024
Mitochondrial
dysfunction
and
metabolic
reprogramming
can
lead
to
the
development
progression
of
hepatocellular
carcinoma
(HCC).
Ferredoxin
1
(FDX1)
is
a
small
mitochondrial
protein
recent
studies
have
shown
that
FDX1
plays
an
important
role
in
tumor
cuproptosis,
but
its
HCC
still
elusive.
In
this
study,
we
aim
investigate
expression
novel
functions
HCC.
Particle and Fibre Toxicology,
Год журнала:
2024,
Номер
21(1)
Опубликована: Янв. 15, 2024
Abstract
Background
As
the
demand
and
application
of
engineered
nanomaterials
have
increased,
their
potential
toxicity
to
central
nervous
system
has
drawn
increasing
attention.
Tunneling
nanotubes
(TNTs)
are
novel
cell–cell
communication
that
plays
a
crucial
role
in
pathology
physiology.
However,
relationship
between
TNTs
neurotoxicity
remains
unclear.
Here,
three
types
commonly
used
nanomaterials,
namely
cobalt
nanoparticles
(CoNPs),
titanium
dioxide
(TiO
2
NPs),
multi-walled
carbon
(MWCNTs),
were
selected
address
this
limitation.
Results
After
complete
characterization
induction
formation
with
all
was
observed
using
high-content
screening
confocal
microscopy
both
primary
astrocytes
U251
cells.
It
further
revealed
TNT
protected
against
nanomaterial-induced
due
cell
apoptosis
disrupted
ATP
production.
We
then
determined
mechanism
underlying
protective
TNTs.
Since
oxidative
stress
is
common
nanotoxicity,
we
first
significant
increase
total
mitochondrial
reactive
oxygen
species
(namely
ROS,
mtROS),
causing
damage.
Moreover,
pretreatment
cells
either
ROS
scavenger
N-acetylcysteine
or
mtROS
mitoquinone
attenuated
generation,
suggesting
nanomaterials-induced
formation.
Furthermore,
vigorous
downstream
pathway
PI3K/AKT/mTOR
pathway,
found
be
actively
involved
nanomaterials-promoted
development,
which
abolished
by
LY294002,
Perifosine
Rapamycin,
inhibitors
PI3K,
AKT,
mTOR,
respectively.
Finally,
western
blot
analysis
demonstrated
scavengers
suppressed
abrogated
Conclusion
Despite
biophysical
properties,
various
promote
transfer,
preventing
disrupting
production
induced
nanomaterials.
ROS/mtROS
activation
mechanisms
regulate
transfer.
Our
study
reveals
share
same
molecular
intercellular
proposed
adverse
outcome
contributes
better
understanding
protection
neurotoxicity.
Graphical
abstract
Antioxidants,
Год журнала:
2025,
Номер
14(1), С. 72 - 72
Опубликована: Янв. 9, 2025
Type
2
diabetes
mellitus
(T2DM)
is
a
chronic
metabolic
disorder
that
significantly
increases
the
risk
of
cardiovascular
disease,
which
leading
cause
morbidity
and
mortality
among
diabetic
patients.
A
central
pathophysiological
mechanism
linking
T2DM
to
complications
oxidative
stress,
defined
as
an
imbalance
between
reactive
oxygen
species
(ROS)
production
body’s
antioxidant
defenses.
Hyperglycemia
in
promotes
stress
through
various
pathways,
including
formation
advanced
glycation
end
products,
activation
protein
kinase
C,
mitochondrial
dysfunction,
polyol
pathway.
These
processes
enhance
ROS
generation,
endothelial
vascular
inflammation,
exacerbation
damage.
Additionally,
disrupts
nitric
oxide
signaling,
impairing
vasodilation
promoting
vasoconstriction,
contributes
complications.
This
review
explores
molecular
mechanisms
by
pathogenesis
disease
T2DM.
It
also
examines
potential
lifestyle
modifications,
such
dietary
changes
physical
activity,
reducing
mitigating
risks
this
high-risk
population.
Understanding
these
critical
for
developing
targeted
therapeutic
strategies
improve
outcomes
Pharmacological Research,
Год журнала:
2025,
Номер
212, С. 107596 - 107596
Опубликована: Янв. 10, 2025
Sepsis
is
a
life-threatening
syndrome
characterized
by
organ
dysfunction
caused
dysregulated
host
response
to
infection.
Sepsis-associated
acute
liver
injury
(SA-ALI)
frequent
and
serious
complication
of
sepsis
that
considerably
impacts
both
short-term
long-term
survival
outcomes.
In
intensive
care
units
(ICUs),
the
mortality
rate
patients
with
SA-ALI
remains
high,
mostly
due
absence
effective
early
diagnostic
markers
suitable
therapeutic
strategies.
Recent
studies
have
demonstrated
importance
non-coding
RNAs
(ncRNAs)
in
development
progression
SA-ALI.
This
review
focuses
on
critical
roles
ncRNAs,
including
microRNAs
(miRNAs),
long
(lncRNAs),
circular
(circRNAs),
regulating
"cytokine
storms",
oxidative
stress,
mitochondrial
dysfunction,
programmed
cell
death
SA-ALI,
summarizes
current
state
limitations
existing
lncRNAs
circRNAs
By
integrating
advancements
high-throughput
sequencing
technologies,
this
provides
novel
insights
into
dual
potential
ncRNAs
as
biomarkers
targets,
offers
new
ideas
for
diagnosis
treatment
research
highlights
challenges
clinical
translation.
Antioxidants,
Год журнала:
2022,
Номер
11(5), С. 911 - 911
Опубликована: Май 6, 2022
The
critical
factors
for
regulating
cancer
metabolism
are
oxidative
stress
and
phosphoinositide-3-kinase/AKT
serine-threonine
kinase/mechanistic
target
of
the
rapamycin
kinase
(PI3K/AKT/mTOR).
However,
metabolic
impacts
PI3K/AKT/mTOR
on
individual
mechanisms
such
as
glycolysis
(Warburg
effect),
pentose
phosphate
pathway
(PPP),
fatty
acid
synthesis,
tricarboxylic
cycle
(TCA)
cycle,
glutaminolysis,
phosphorylation
(OXPHOS)
complicated.
Therefore,
this
review
summarizes
interacting
functions
metabolism.
Moreover,
natural
products
providing
modulating
effects
have
anticancer
potential.
Using
example
brown
algae-derived
fucoidan,
roles
were
summarized,
although
their
potential
within
diverse
metabolisms
rarely
investigated.
We
propose
a
application
that
fucoidan
may
regulate
signaling
to
modulate
associated
regulations.
This
sheds
light
understanding
future
direction
metabolism-based
therapy
fucoidan.
