Biomolecules,
Год журнала:
2024,
Номер
14(11), С. 1387 - 1387
Опубликована: Окт. 31, 2024
One-carbon
(1C)
metabolism
is
a
complex
network
of
metabolic
reactions
closely
related
to
producing
1C
units
(as
methyl
groups)
and
utilizing
them
for
different
anabolic
processes,
including
nucleotide
synthesis,
methylation,
protein
reductive
metabolism.
These
pathways
support
the
high
proliferative
rate
cancer
cells.
While
drugs
that
target
(like
methotrexate)
have
been
used
treatment,
they
often
significant
side
effects.
Therefore,
developing
new
with
minimal
effects
necessary
effective
treatment.
Methionine,
glycine,
serine
are
main
three
precursors
vital
not
only
cells
but
also
non-proliferative
in
regulating
energy
homeostasis
aging
process.
Understanding
potential
role
crucial
advancing
our
knowledge
neoplastic
progression.
This
review
provides
comprehensive
understanding
molecular
complexities
context
aging,
paving
way
researchers
explore
avenues
advanced
therapeutic
interventions
cancer.
Journal of Photochemistry and Photobiology B Biology,
Год журнала:
2025,
Номер
263, С. 113100 - 113100
Опубликована: Янв. 7, 2025
Ultraviolet
radiation
(UV)
causes
certain
side
effects
to
the
skin,
and
their
accumulation
a
extent
can
lead
accelerated
aging
of
skin.
Recent
studies
suggest
that
α-arbutin
may
be
useful
in
various
disorders
such
as
hyperpigmentation
disorders,
wound
healing,
antioxidant
activity.
However,
role
skin
photodamage
is
unclear.
In
this
study,
under
UVA-induced
conditions,
treated
mouse
fibroblasts
(NIH-3T3)
repair
DNA
damage
resist
apoptosis
by
reducing
production
reactive
oxygen
species
(ROS)
increasing
phosphorylation
glycogen
synthase
kinase
3
beta
(GSK3β)
orchestra
AKT/GSK3β
pathway.
Meanwhile,
also
regulate
collagen
metabolism
facilitate
replenishment
targeting
SMAD3
mediate
TGFβ/SMAD
pathway
NIH-3T3.
conclusion,
we
found
mitigate
detrimental
induced
UVA
irradiation,
provides
theoretical
basis
for
use
treatment
photodamage.
Pharmaceuticals,
Год журнала:
2025,
Номер
18(3), С. 344 - 344
Опубликована: Фев. 27, 2025
Age-related
oxidative
stress
is
a
critical
factor
in
vascular
dysfunction,
contributing
to
hypertension
and
atherosclerosis.
Smooth
muscle
cells
endothelial
are
particularly
susceptible
damage,
which
exacerbates
aging
through
cellular
senescence,
chronic
inflammation,
arterial
stiffness.
Gasotransmitters—hydrogen
sulfide
(H2S),
nitric
oxide
(NO),
carbon
monoxide
(CO)—are
emerging
as
promising
therapeutic
agents
for
counteracting
these
processes.
This
review
synthesizes
findings
from
recent
studies
focusing
on
the
mechanisms
by
H2S,
NO,
CO
influence
smooth
cell
function.
Therapeutic
strategies
involving
exogenous
gasotransmitter
delivery
systems
combination
therapies
were
analyzed.
H2S
enhances
mitochondrial
bioenergetics,
scavenges
ROS,
activates
antioxidant
pathways.
NO
improves
function,
promotes
vasodilation,
inhibits
platelet
aggregation.
exhibits
cytoprotective
anti-inflammatory
effects
modulating
heme
oxygenase
activity
ROS
production.
In
preclinical
studies,
gasotransmitter-releasing
molecules
(e.g.,
NaHS,
SNAP,
CORMs)
targeted
show
significant
promise.
Synergistic
with
lifestyle
modifications
further
enhance
their
potential.
conclusion,
gasotransmitters
hold
promise
combat
age-related
cells.
Their
multifaceted
innovative
approaches
make
them
potential
candidates
treating
dysfunction
promoting
healthy
aging.
Further
research
needed
translate
into
clinical
applications.
Advanced Healthcare Materials,
Год журнала:
2025,
Номер
unknown
Опубликована: Апрель 15, 2025
Bacterial
infections
and
complex
microenvironments
induce
cellular
oxidative
stress
senescence
severely
affect
chronic
wound
healing.
However,
the
antibacterial
effect
of
most
dressings
is
single,
which
only
against
wound-breeding
bacteria
but
cannot
resist
further
invasion
in
environment
into
wound.
Few
can
simultaneously
fulfill
antibacterial,
antifouling,
regulation,
protection.
Therefore,
a
Janus
patch
(SBMA/OHA/GelMA/TA-CeO2@HA
(HGT-C@HA))
prepared,
top
superhydrophilic
SBMA
zwitterionic
layer
resists
bacterial
adhesion,
CeO2
coated
with
hyaluronic
acid
(HA)
loaded
bottom
gel
as
functional
center.
After
immersion
tannic
(TA),
Ce-TA
chelate
formation
situ
confers
photothermal
antimicrobial
properties
to
hydrogel.
It
validated
that
HA-coated
enable
dressing
obtain
higher
antioxidant
by
regulating
proportion
Ce3+
on
nanoparticle
surface,
protects
cells
from
high
glucose
H2O2
effectively
inhibits
intracellular
DNA
damage
mitigate
senescence.
In
vivo
experiments
illustrate
material
significantly
accelerated
healing
improved
quality
healing,
demonstrating
significant
potential
this
diabetic
Frontiers in Aging Neuroscience,
Год журнала:
2025,
Номер
17
Опубликована: Май 7, 2025
As
the
population
ages,
identification
of
preventive
strategies
able
to
delay
cognitive
and
functional
decline
associated
with
aging
represents
a
major
challenge.
To
date,
multidimensional
approaches
seem
be
effective
in
reducing
or
delaying
onset
age-related
diseases.
The
multicentric
randomized
controlled
trial
IN-TeMPO
(ItaliaN
study
Tailored
Multidomain
interventions
Prevent
community-dwelling
Older
adults,
ClinicalTrials.gov
ID
NCT06248723),
framed
within
World-Wide
FINGERS
network,
aims
verify
efficacy
guided
multidomain
preventing
decline.
Within
this
study,
we
will
explore
comprehensive
array
established
exploratory
blood
biomarkers
several
pathologic
processes,
including
Alzheimer's
disease
(AD),
neurodegeneration,
inflammation,
senescence
sarcopenia,
stratify
subject
risk
assess
effect
on
biomarkers.
ApoE4
status
plasma
p-tau217
NfL
(neurodegeneration),
GFAP
IL-6
(inflammation),
GDF-15
(senescence/sarcopenia)
evaluated
all
subjects
(n
=
1,662)
both
at
baseline
end
(12
months).
Exploratory
additional
measured
same
time
points
subgroup
100
subjects:
BDNF,
ghrelin,
IGF-1,
irisin
redox
as
markers
sarcopenia/senescence
oxidative
stress,
gamma-H2AX
PBMCs
marker
senescence,
amyloid
beta
aggregates
plasma,
urine
erythrocytes
supportive
AD.
Untargeted
metabolomics
analysis
untargeted
volatilomics
whole
performed
molecular
alterations
that
may
pathogenesis
progression
diseases
frail
older
adults
aim
identifying
novel
potential
clinical
use
multiple
laboratory
can
contribute
early
trajectories
mechanisms
underlying
multidisciplinary
pathological
processes.
The
ovary
is
a
crucial
gonadal
organ
that
supports
female
reproductive
and
endocrine
functions.
Ovarian
aging
can
result
in
decreased
fertility
dysfunction
across
multiple
organs.
Research
has
demonstrated
cellular
senescence
various
cell
types
within
the
trigger
decline
ovarian
function
through
distinct
stress
responses,
resulting
aging.
This
review
explores
how
may
contribute
to
failure.
Additionally,
we
discuss
factors
cause
senescence,
including
accumulation
of
advanced
glycation
end
products,
oxidative
stress,
mitochondrial
dysfunction,
DNA
damage,
telomere
shortening,
exposure
chemotherapy.
Furthermore,
six
types,
oocytes,
granulosa
cells,
theca
immune
surface
epithelium,
endothelial
inside
explore
their
contribution
accelerated
Lastly,
describe
potential
senotherapeutics
for
treatment
offer
novel
strategies
longevity.
Frontiers in Molecular Biosciences,
Год журнала:
2025,
Номер
12
Опубликована: Апрель 24, 2025
Keratoconus
is
a
bilateral
and
asymmetric
degenerative
eye
disease
that
causes
corneal
thinning
bowing,
leading
to
irregular
astigmatism
vision
loss.
Although
environmental
genetic
factors
contribute
the
disease's
development,
exact
cause
underlying
pathological
mechanism
remain
unknown.
In
this
review,
we
comprehensively
explore
latest
pathophysiological
mechanisms
of
keratoconus,
focusing
on
oxidative
damage
inflammation.
Senescence
emerges
as
key
driver
keratoconus
pathogenesis.
Understanding
these
common
elements
enhances
our
understanding
paves
way
for
innovative
therapeutic
approaches
keratoconus.
DNA repair,
Год журнала:
2024,
Номер
142, С. 103752 - 103752
Опубликована: Авг. 20, 2024
Quiescence
is
an
important
non-pathological
state
in
which
cells
pause
cell
cycle
progression
temporarily,
sometimes
for
decades,
until
they
receive
appropriate
proliferative
stimuli.
Quiescent
make
up
a
significant
proportion
of
the
body,
and
maintaining
genomic
integrity
during
quiescence
crucial
tissue
structure
function.
While
are
spared
from
DNA
damage
associated
with
replication
or
mitosis,
still
exposed
to
various
sources
endogenous
damage,
including
those
induced
by
normal
transcription
metabolism.
As
such,
it
vital
that
retain
their
capacity
effectively
repair
lesions
may
occur
return
without
losing
cellular
properties.
Notably,
while
pathways
often
found
be
downregulated
quiescent
cells,
emerging
evidence
suggests
presence
active
differentially
regulated
mechanisms.
This
review
aims
provide
current
understanding
processes
mammalian
systems
sheds
light
on
potential
pathological
consequences
inefficient
inaccurate
cells.
Bioscientia Medicina Journal of Biomedicine and Translational Research,
Год журнала:
2024,
Номер
8(8), С. 4682 - 4696
Опубликована: Май 20, 2024
The
aging
process
is
an
inevitable
occurrence
that
involves
physiological
changes
at
the
cellular
level.
presence
of
intrinsic
and
extrinsic
stressors
can
cause
damage,
leading
to
senescence
premature
aging.
Senescent
cells
undergo
activation
p53/p21
p16INK4a
pathways,
induce
cell
cycle
arrest,
increased
expression
senescence-associated
beta-galactosidase
(SA-β-Gal),
secretion
SASP
(senescence-associated
secretory
phenotype),
"inflamm-aging"
or
chronic
inflammation
associated
with
senescence.
These
“inflamm-aging”
accelerates
age-related
diseases,
one
which
atherosclerosis.
relationship
between
aging,
senescence,
atherosclerosis
has
been
a
focus
research
on
pathogenesis,
prevention,
therapy.
Recent
emphasized
crucial
role
senolytics,
compounds
agents
capable
eliminating
senescent
cells,
in
inhibiting
progression
slowing
down
Obtaining
more
comprehensive
understanding
processes
effectiveness
senolytics
should
facilitate
development
potent
medicines
mitigate
side
effects
management
cardiovascular
disease
extend
longevity.
