Investigative Ophthalmology & Visual Science,
Journal Year:
2024,
Volume and Issue:
65(6), P. 2 - 2
Published: June 3, 2024
Purpose:
The
purpose
of
this
study
was
to
investigate
the
involvement
TLR4/NF-κB/NLRP3
signaling
pathway
and
its
underlying
mechanism
in
diabetic
dry
eye.
Methods:
Two
models
eye
were
established
high
glucose-induced
human
corneal
epithelial
(HCE-T)
cells
streptozotocin
(STZ)-induced
C57BL/6
mice,
TLR4
inhibitor
fosfenopril
(FOS)
utilized
suppress
pathway.
expression
changes
TLR4,
NF-κB,
NLRP3,
IL-1β,
other
factors
detected
by
Western
blot
RT‒qPCR,
wound
healing
rate
evaluated
cell
scratch
assay,
symptoms
mice
sodium
fluorescein
staining
tear
secretion
assay.
Results:
In
model,
transcript
levels
IL-1β
raised,
further
application
FOS,
a
inhibitor,
downregulated
these
factors.
addition,
FOS
found
be
effective
increasing
HCE-T
cells,
production,
decreasing
fluorescence
scores
as
measured
production.
Conclusions:
current
that
regulates
an
vitro
vivo
reduces
signs
providing
new
treatment
option
for
Advanced Healthcare Materials,
Journal Year:
2023,
Volume and Issue:
12(25)
Published: April 13, 2023
Diabetic
wounds
are
characterized
by
drug-resistant
bacterial
infections,
biofilm
formation,
impaired
angiogenesis
and
perfusion,
oxidative
damage
to
the
microenvironment.
Given
their
complex
nature,
diabetic
remain
a
major
challenge
in
clinical
practice.
Reactive
oxygen
species
(ROS),
which
have
been
shown
trigger
hyperinflammation
excessive
cellular
apoptosis,
play
pivotal
role
pathogenesis
of
wounds.
ROS-scavenging
nanosystems
recently
emerged
as
smart
multifunctional
nanomedicines
with
broad
synergistic
applicability.
The
documented
anti-inflammatory
pro-angiogenic
ability
treatments
predestines
these
promising
options
for
treatment
Yet,
this
context,
therapeutic
applicability
efficacy
be
elucidated.
Herein,
ROS
is
deciphered,
properties
strengths
capacity
summarized.
In
addition,
current
challenges
such
potential
future
directions
discussed
through
clinical-translational
lens.
Advanced Materials,
Journal Year:
2023,
Volume and Issue:
36(2)
Published: Aug. 1, 2023
Chronic
wounds
are
characterized
by
delayed
and
dysregulated
healing
processes.
As
such,
they
have
emerged
as
an
increasingly
significant
threat.
The
associated
morbidity
socioeconomic
toll
clinically
financially
challenging,
necessitating
novel
approaches
in
the
management
of
chronic
wounds.
Metal-organic
frameworks
(MOFs)
innovative
type
porous
coordination
polymers,
with
low
toxicity
high
eco-friendliness.
Documented
anti-bacterial
effects
pro-angiogenic
activity
predestine
these
nanomaterials
promising
systems
for
treatment
In
this
context,
therapeutic
applicability
efficacy
MOFs
remain
to
be
elucidated.
It
is,
therefore,
reviewed
structural-functional
properties
their
composite
materials
discusses
how
multifunctionality
customizability
can
leveraged
a
clinical
therapy
Frontiers in Immunology,
Journal Year:
2023,
Volume and Issue:
14
Published: April 25, 2023
In
the
working-age
population
worldwide,
diabetic
retinopathy
(DR),
a
prevalent
complication
of
diabetes,
is
main
cause
vision
impairment.
Chronic
low-grade
inflammation
plays
an
essential
role
in
DR
development.
Recently,
concerning
pathogenesis
DR,
Nod-Like
Receptor
Family
Pyrin
Domain
Containing
3
(NLRP3)
inflammasome
retinal
cells
has
been
determined
as
causal
factor.
eye,
NLRP3
activated
by
several
pathways
(such
ROS
and
ATP).
The
activation
NPRP3
leads
to
secretion
inflammatory
cytokines
interleukin-1β
(IL-1β)
interleukin-18
(IL-18),
pyroptosis,
rapid
form
lytic
programmed
cell
death
(PCD).
Cells
that
undergo
pyroptosis
swell
rapture,
releasing
more
factors
accelerating
progression.
This
review
focuses
on
mechanisms
activate
leading
DR.
present
research
highlighted
some
inhibitors
NLRP3/pyroptosis
novel
therapeutic
measures
treatment.
Burns & Trauma,
Journal Year:
2025,
Volume and Issue:
13
Published: Jan. 1, 2025
Abstract
Diabetes
mellitus,
a
pervasive
chronic
metabolic
disorder,
is
often
associated
with
complications
such
as
impaired
wound
healing.
Various
factors,
most
notably
vascular
deficiency,
govern
the
repair
process
in
diabetic
patients,
significantly
impeding
healing;
therefore,
angiogenesis
and
its
role
have
emerged
important
areas
of
research.
This
review
aims
to
delve
into
mechanisms
angiogenesis,
effects
diabetes
on
association
between
repair.
will
ultimately
offer
valuable
guidance
regarding
ideal
timing
treatment
clinical
setting.
Frontiers in Endocrinology,
Journal Year:
2022,
Volume and Issue:
13
Published: Dec. 16, 2022
With
the
global
prevalence
of
diabetes
mellitus
over
recent
decades,
more
patients
suffered
from
various
diabetic
complications,
including
ocular
surface
diseases
that
may
seriously
affect
quality
life
and
even
vision
sight.
The
major
include
keratopathy
dry
eye.
Diabetic
is
characterized
with
delayed
corneal
epithelial
wound
healing,
reduced
nerve
density,
decreased
sensation
feeling
burning
or
dryness.
eye
manifested
as
reduction
tear
secretion
accompanied
discomfort.
early
clinical
symptoms
degeneration,
suggesting
diagnosis
should
be
focused
on
examination
confocal
microscopy
symptoms.
pathogenesis
involves
accumulation
advanced
glycation
end-products,
impaired
neurotrophic
innervations
limbal
stem
cell
function,
dysregulated
growth
factor
signaling,
inflammation
alterations.
associated
abnormal
mitochondrial
metabolism
lacrimal
gland
caused
by
overactivation
sympathetic
nervous
system.
Considering
important
roles
dense
in
homeostatic
maintenance
cornea
gland,
further
studies
neuroepithelial
neuroimmune
interactions
will
reveal
predominant
pathogenic
mechanisms
develop
targeting
intervention
strategies
complications.
Cells,
Journal Year:
2023,
Volume and Issue:
12(12), P. 1584 - 1584
Published: June 8, 2023
Kidney
disease
is
a
significant
health
problem
worldwide,
affecting
an
estimated
10%
of
the
global
population.
encompasses
diverse
group
disorders
that
vary
in
their
underlying
pathophysiology,
clinical
presentation,
and
outcomes.
These
include
acute
kidney
injury
(AKI),
chronic
(CKD),
glomerulonephritis,
nephrotic
syndrome,
polycystic
disease,
diabetic
many
others.
Despite
distinct
etiologies,
these
share
common
feature
immune
system
dysregulation
metabolic
disturbances.
The
pathways
are
intimately
connected
interact
to
modulate
pathogenesis
diseases.
responses
diseases
includes
complex
interplay
between
various
cell
types,
including
resident
infiltrating
cells,
cytokines,
chemokines,
complement
factors.
factors
can
trigger
perpetuate
inflammation,
causing
renal
tissue
progressive
fibrosis.
In
addition,
play
critical
roles
diseases,
glucose
lipid
metabolism,
oxidative
stress,
mitochondrial
dysfunction,
altered
nutrient
sensing.
Dysregulation
contributes
progression
by
inducing
tubular
injury,
apoptosis,
Recent
studies
have
provided
insights
into
intricate
revealing
novel
therapeutic
targets
for
prevention
treatment
Potential
strategies
modulating
through
targeting
key
or
inhibiting
pro-inflammatory
signaling
pathways,
improving
function,
nutrient-sensing
such
as
mTOR,
AMPK,
SIRT1.
This
review
highlights
importance
potential
implications
pathways.
ACS Nano,
Journal Year:
2023,
Volume and Issue:
17(22), P. 22668 - 22683
Published: Sept. 26, 2023
Complications
arising
from
diabetes
can
threaten
multiple
organs.
Advanced
glycation
end
products
(AGEs)
play
a
significant
role
in
inducing
these
complications.
Highly
processed
diets
and
hyperglycemia
facilitate
the
accumulation
of
AGEs
body.
Interaction
between
their
main
receptor
(RAGE)
initiates
transmission
intracellular
inflammatory
cell
death
signals,
which
ultimately
lead
to
To
counter
AGEs-induced
damage,
we
developed
an
siRNA-binding
tetrahedral
framework
nucleic
acids
(TDN)
system,
termed
Tsi,
combines
potent
membrane
penetrability
serum
stability
TDN
with
gene-targeting
specificity
siRNA-RAGE.
Tsi
effectively
persistently
downregulates
expression
RAGE,
thereby
suppressing
inflammation
by
blocking
NF-κB
pathway
as
well
exhibiting
antioxidant
functions.
Furthermore,
regulates
pyroptosis
state
macrophages
via
NLRP3/caspase-1
axis,
inhibits
spread
signals
maintains
homeostasis.
This
is
great
significance
for
synergistic
treatment
strategy
systemic
complications
patients
refractory
hyperglycemia.
In
summary,
this
study
describes
nanomedicine
that
targets
RAGE
suppresses
AGE-induced
inflammation.
acid
drug
holds
long-lasting
efficacy
independent
lowering
hyperglycemia,
provides
diabetic
age-related
diseases.
