Chaihuang Qingfu Pills Protect Against Acute Pancreatitis—Associated Acute Lung Injury Through MMP9-NLRP3-Pyroptosis Pathway
Journal of Inflammation Research,
Journal Year:
2025,
Volume and Issue:
Volume 18, P. 2317 - 2338
Published: Feb. 1, 2025
Severe
acute
pancreatitis
associated
with
lung
injury
(SAP-ALI)
is
a
critical
condition
high
mortality
rate.
Investigating
the
pathogenesis
of
SAP-ALI
and
developing
effective
treatments
are
urgently
needed.
Chaihuang
Qingfu
Pills
(CHQF),
traditional
Chinese
medicine
modified
from
Qingyi
Decoction,
has
been
approved
for
treating
(AP).
However,
its
role
in
underlying
mechanisms
remain
unclear.
92
AP
patients
were
enrolled
to
observe
protective
effect
CHQF
on
AP-ALI.
L-arginine
was
used
establish
animal
model.
UHPLC-MS/MS
identify
components
absorbed
into
serum.
Transcriptomics
analysis,
network
pharmacology,
proteomics
approaches
explore
molecular
mechanism.
In
vivo
vitro
experiments
conducted
validate
relevant
findings.
Clinical
data
indicated
reduced
incidence
ALI
58.33%
36.36%
patients.
Animal
demonstrated
that
decreased
mortality,
attenuated
organ
damage,
inhibited
systemic
inflammation
pathological
SAP
mice.
Differential
expression
analysis
weighted
gene
co-expression
(WGCNA)
identified
146
SAP-related
differentially
expressed
genes
(DEGs)
GSE194331
dataset.
acquired
26
blood
271
therapeutic
targets.
Integrated
obtained
52
core
targets
SAP.
Proteomic
216
proteins
treatment
SAP-ALI.
Joint
found
MMP9
NLRP3
only
common
Both
confirmed
levels
pyroptosis
alveolar
macrophages
(AMs)
under
conditions.
Moreover,
inhibitor
suppressed
AMs
pyroptosis.
exerted
by
inhibiting
macrophage
through
MMP9-NLRP3
pathway,
providing
novel
strategy
Language: Английский
Calycosin treats acute myocardial infarction via NLRP3 inflammasome: Bioinformatics, network pharmacology and experimental validation
Huajing Yuan,
No information about this author
Quancheng Han,
No information about this author
Hui Yu
No information about this author
et al.
European Journal of Pharmacology,
Journal Year:
2025,
Volume and Issue:
unknown, P. 177621 - 177621
Published: April 1, 2025
Language: Английский
VEGF secreted by human dental pulp stem cell promotes spinal cord injury repair by inhibiting microglial pyroptosis through the PI3K/AKT pathway
Xinwei Zhang,
No information about this author
Tao Liu,
No information about this author
Ziqian Ma
No information about this author
et al.
Journal of Translational Medicine,
Journal Year:
2025,
Volume and Issue:
23(1)
Published: April 12, 2025
Spinal
cord
injury
(SCI)
remains
a
devastating
central
nervous
system
disorder.
The
complex
pathological
microenvironment
following
SCI,
particularly
the
imbalance
in
neuroinflammation,
contributes
to
its
therapeutic
challenges.
Microglial
pyroptosis,
type
of
programmed
cell
death,
is
pivotal
exacerbating
neuroinflammation
and
secondary
tissue
damage
after
SCI.
Our
previous
study
demonstrated
inhibitory
efficacy
conditioned
medium
(CM)
derived
from
human
dental
pulp
stem
cells
(DPSCs)
on
microglial
pyroptosis
positive
effects
functional
recovery
SCI
models.
However,
major
secretory
product
CM
responsible
for
inhibiting
unclear.
We
aim
investigate
whether
vascular
endothelial
growth
factor
(VEGF)
secreted
by
DPSCs
can
alleviate
through
PI3K/AKT
signaling
pathway
promote
motor
electrophysiological
function
mice.
Human
were
isolated
cultured,
was
collected
VEGF
detection
further
treatment.
BV2
line
established
as
model
administration
lipopolysaccharide
(LPS).
induced
Molecular
histological
techniques
employed
evaluate
explore
underlying
mechanisms
both
vivo
vitro.
DPSC-derived
significantly
inhibited
vitro
vivo,
evidenced
decreased
expression
pyroptosis-related
markers,
such
caspase-1
IL-1β.
anti-pyroptotic
closely
associated
with
activation
pathway,
which
identified
key
regulatory
mechanism.
Importantly,
treatment
DPSC-CM
improved
conduction
alleviates
via
thereby
contributing
repair
provides
new
insights
into
potential
therapy
their
factors,
VEGF,
offering
perspectives
Language: Английский
Role of circadian clock in female embryo implantation
Yukai Zhou,
No information about this author
Xin-Ru He,
No information about this author
Zhenxin Chen
No information about this author
et al.
Frontiers in Cell and Developmental Biology,
Journal Year:
2025,
Volume and Issue:
13
Published: June 4, 2025
Accumulating
evidence
indicates
that
circadian
rhythm
disruption
can
exert
an
impact
on
female
reproductive
function.
In
the
context
of
reproduction,
success
embryo
implantation
is
utmost
significance
as
it
essential
process
for
reproduction.
Studies
have
demonstrated
females
with
disrupted
rhythms
are
more
likely
to
experience
failure,
which
exemplified
by
shift
workers,
nurses,
and
flight
attendants.
Therefore,
comprehending
crucial
human
Herein,
we
emphasize
mechanism
operation
its
regulatory
effect
hormones
related
implantation.
More
importantly,
role
peripheral
clock
genes
in
(endometrial
receptivity
decidualization)
highlighted.
Finally,
melatonin
hypothesized
be
a
promising
treatment
failure
caused
disturbances.
Language: Английский