Current Eye Research,
Journal Year:
2022,
Volume and Issue:
47(8), P. 1095 - 1105
Published: May 2, 2022
Purpose:
The
purpose
of
this
paper
is
to
investigate
how
the
imbalance
neurogenic
factor
(NGF)
and
its
precursor
(pro-NGF)
mediates
structural
functional
impairment
retinal
neurovascular
unit
(RNVU)
that
plays
a
role
in
degenerative
diseases.Methods:
A
literature
search
electronic
databases
was
performed.Results:
pro-apoptotic
effect
pro-NGF
pro-growth
NGF
are
essential
for
pathological
physiological
activities
RNVU.
Studies
show
NGF-based
treatment
diseases,
including
glaucoma,
age-related
macular
degeneration,
retinitis
pigmentosa,
diabetic
retinopathy,
has
achieved
remarkable
efficacy.Conclusions:
RNVU
complex
multifaceted
diseases.
exploration
differential
signaling
expression
proNGF-NGF
homeostasis
under
conditions,
corresponding
processes
induced
by
regulation,
prompted
us
focus
on
earlier
neuroprotective
therapeutic
strategies
prevent
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.
Journal of Neuroinflammation,
Journal Year:
2022,
Volume and Issue:
19(1)
Published: July 14, 2022
Pyroptosis
is
a
programmed
cell
death
characterized
by
swift
plasma
membrane
disruption
and
subsequent
release
of
cellular
contents
pro-inflammatory
mediators
(cytokines),
including
IL-1β
IL-18.
It
differs
from
other
types
such
as
apoptosis,
autophagy,
necroptosis,
ferroptosis,
NETosis
in
terms
its
morphology
mechanism.
As
recently
discovered
form
death,
pyroptosis
has
been
demonstrated
to
be
involved
the
progression
multiple
diseases.
Recent
studies
have
also
suggested
that
linked
various
ocular
In
this
review,
we
systematically
summarized
discussed
recent
scientific
discoveries
involvement
common
diseases,
diabetic
retinopathy,
age-related
macular
degeneration,
AIDS-related
human
cytomegalovirus
retinitis,
glaucoma,
dry
eye
disease,
keratitis,
uveitis,
cataract.
We
organized
new
emerging
evidence
suggesting
signaling
pathways
may
potential
therapeutic
targets
hoping
provide
summary
overall
intervention
strategies
relevant
multi-dimensional
evaluations
for
well
offer
valuable
ideas
further
research
development
perspective
pyroptosis.
Frontiers in Pharmacology,
Journal Year:
2022,
Volume and Issue:
13
Published: Aug. 9, 2022
Diabetic
retinopathy
(DR),
a
leading
cause
of
vision
loss
and
blindness
worldwide,
is
caused
by
retinal
neurovascular
unit
dysfunction,
its
cellular
pathology
involves
at
least
nine
kinds
cells,
including
photoreceptors,
horizontal
bipolar
amacrine
ganglion
glial
cells
(Müller
astrocytes,
microglia),
endothelial
pericytes,
pigment
epithelial
cells.
Its
mechanism
complicated
inflammatory
factor
production,
neovascularization,
BRB
impairment.
However,
the
has
not
been
completely
elucidated.
Drug
treatment
for
DR
gradually
advancing
recently.
Research
on
potential
drug
targets
relies
upon
clear
information
pathogenesis
effective
biomarkers.
Therefore,
we
reviewed
recent
literature
diagnostic
prognostic
biomarkers
in
terms
blood,
protein,
clinical
preclinical
therapy
(including
synthesized
molecules
natural
molecules).
This
review
may
provide
theoretical
basis
further
research.
Frontiers in Endocrinology,
Journal Year:
2022,
Volume and Issue:
13
Published: July 25, 2022
Background
Diabetic
retinopathy
is
a
diabetic
microvascular
complication.
Pyroptosis,
as
way
of
inflammatory
death,
plays
an
important
role
in
the
occurrence
and
development
retinopathy,
but
its
underlying
mechanism
has
not
been
fully
elucidated.
The
purpose
this
study
to
identify
potential
pyroptosis-related
genes
by
bioinformatics
analysis
validation
model
predict
microRNAs
(miRNAs)
long
non-coding
RNAs
(lncRNAs)
interacting
with
them.
Subsequently,
competing
endogenous
RNA
(ceRNA)
regulatory
network
structured
explore
their
molecular
mechanism.
Methods
We
obtained
mRNA
expression
profile
dataset
GSE60436
from
Gene
Expression
Omnibus
(GEO)
database
collected
51
PubMmed
database.
differentially
expressed
were
R
software,
then
eight
key
interest
identified
correlation
analysis,
Ontology
(GO)
enrichment
Kyoto
Encyclopedia
Genes
Genomes
(KEGG)
pathway
protein–protein
interaction
(PPI)
analysis.
Then,
levels
these
validated
quantitative
real-time
polymerase
chain
reaction
(qRT-PCR)
human
retinal
endothelial
cells
high
glucose
incubation,
which
was
used
vitro
retinopathy.
Western
blot
performed
measure
protein
gasdermin
D
(GSDMD),
dasdermin
E
(GSDME)
cleaved
caspase-3
cells.
Moreover,
aforementioned
further
confirmed
set.
Finally,
ceRNA
structured,
miRNAs
lncRNAs
interacted
CASP3,
TLR4,
GBP2
predicted.
Results
A
total
13
screened
six
proliferative
patients
three
samples
retinas,
including
one
downregulated
gene
12
upregulated
genes.
showed
that
there
among
KEGG
GO
analyses
functional
roles
results
mainly
related
inflammasome
complex,
interleukin-1
beta
production,
NOD-like
receptor
signaling
pathway.
In
addition,
hub
genes—CASP3,
NLRP3,
GBP2,
CASP1,
CASP4,
PYCARD,
GBP1—were
PPI
using
Cytoscape
software.
High
increased
level
GSDMD
GSDME,
critical
effectors
pyroptosis,
vascular
Verified
qRT-PCR,
all
consistent
chip.
Among
them,
GBP1,
GSE179568
dataset.
20
predicted
target
22
potentially
bind
miRNAs.
we
constructed
expected
mediate
cellular
pyroptosis
Conclusion
Through
data
GEO
software
verification
qRT-PCR
set,
successfully
involved
associated
structured.
These
findings
might
improve
understanding
mechanisms
International Journal of Molecular Sciences,
Journal Year:
2023,
Volume and Issue:
24(11), P. 9166 - 9166
Published: May 23, 2023
A
clear
connection
exists
between
diabetes
and
atherosclerotic
cardiovascular
disease.
Consequently,
therapeutic
approaches
that
target
both
diseases
are
needed.
Clinical
trials
currently
underway
to
explore
the
roles
of
obesity,
adipose
tissue,
gut
microbiota,
pancreatic
beta
cell
function
in
diabetes.
Inflammation
plays
a
key
role
pathophysiology
associated
metabolic
disorders;
thus,
interest
has
increased
targeting
inflammation
prevent
control
Diabetic
retinopathy
is
known
as
neurodegenerative
vascular
disease
occurs
after
some
years
poorly
controlled
However,
increasing
evidence
points
figure
diabetes-associated
retinal
complications.
Interconnected
molecular
pathways,
such
oxidative
stress,
formation
advanced
glycation
end-products,
contribute
inflammatory
response.
This
review
describes
possible
mechanisms
changes
involve
pathways.
Journal of Cellular and Molecular Medicine,
Journal Year:
2024,
Volume and Issue:
28(10)
Published: May 1, 2024
The
occurrence
and
development
of
diabetic
vascular
diseases
are
closely
linked
to
inflammation-induced
endothelial
dysfunction.
Puerarin
(Pue),
the
primary
component
Pueraria
lobata,
possesses
potent
anti-inflammatory
properties.
However,
its
vasoprotective
role
remains
elusive.
Therefore,
we
investigated
whether
Pue
can
effectively
protect
against
damage
induced
by
diabetes.
In
study,
ameliorated
lipopolysaccharide-adenosine
triphosphate
(LPS-ATP)
or
HG-primed
cytotoxicity
apoptosis,
while
inhibited
reactive
oxygen
species
(ROS)-mediated
NLR
family
pyrin
domain
containing
3
(NLRP3)
inflammasome
in
HUVECs,
as
evidenced
significantly
decreased
ROS
level,
NOX4,
Caspase-1
activity
expression
NLRP3,
GSDMD,
cleaved
caspase-1,
IL-1β
IL-18.
Meanwhile,
inducer
CoCI
International Journal of Environmental Research and Public Health,
Journal Year:
2021,
Volume and Issue:
19(1), P. 439 - 439
Published: Dec. 31, 2021
Diabetic
retinopathy
has
recently
been
defined
as
a
highly
specific
neurovascular
complication
of
diabetes.
The
chronic
progression
the
impairment
interdependence
units
(NVUs)
is
associated
with
pathogenesis
diabetic
retinopathy.
NVUs
consist
neurons,
glial
cells,
and
vascular
interdependent
relationships
between
these
cells
are
disturbed
under
conditions.
Clinicians
should
understand
update
current
knowledge
impairments
in
Above
all,
neuronal
cell
death
an
irreversible
change,
it
directly
related
to
vision
loss
patients
Thus,
neuroprotective
vasoprotective
therapies
for
must
be
established.
Understanding
physiological
pathological
helpful
establishing
This
review
focuses
on
introduces
possible
protective
Frontiers in Endocrinology,
Journal Year:
2022,
Volume and Issue:
13
Published: Oct. 27, 2022
As
a
new
way
of
programmed
cell
death,
pyroptosis
plays
vital
role
in
many
diseases.
In
recent
years,
the
relationship
between
and
type
2
diabetes
(T2D)
has
received
increasing
attention.
Although
current
treatment
options
for
T2D
are
abundant,
occurrence
development
appear
to
continue,
poor
prognosis
high
mortality
patients
with
remain
considerable
burden
global
health
system.
Numerous
studies
have
shown
that
mediated
by
NLRP3
inflammasome
can
affect
progression
its
complications;
targeting
potential
therapeutic
effects.
this
review,
we
described
molecular
mechanism
more
comprehensively,
discussed
most
updated
progress
complications,
listed
some
drugs
agents
anti-pyroptosis
Based
on
available
evidence,
exploring
mechanisms
pathway
may
bring
benefits
preventing
treating
drug
development.
