Frontiers in Microbiology,
Journal Year:
2024,
Volume and Issue:
15
Published: Dec. 17, 2024
Hypobaric
hypoxia
exposure
occurs
at
high
altitudes,
including
plateaus,
and
affects
normal
intestinal
function
microbiota
composition.
Exposure
induces
an
inflammatory
response
oxidative
stress
injury,
ultimately
disrupting
homeostasis
causing
barrier
damage.
Thus,
due
to
its
anti-inflammatory,
antioxidative,
microbiota-regulating
properties,
Bifidobacterium
longum
is
a
potentially
effective
probiotic
intervention
protect
the
during
low-pressure
on
plateaus.
However,
mechanism
of
action
not
fully
defined.
In
this
study,
we
investigate
by
which
B.
intervenes
in
damage
caused
plateau
hypoxia.
To
end,
vivo
model
established
exposing
rats
simulated
hypoxic
environment.
The
experimental
were
subsequently
supplemented
with
strain
(JBLC-141)
extracted
from
feces
healthy
adults
Bama,
Guangxi.
JBLC-141
mitigates
effects
rat
barrier.
This
achieved
activating
Kelch-like
ECH-associated
protein
1
(KEAP1)/nuclear
factor
erythroid
2-related
2
(NRF2)
pathway,
alleviating
hypoxia-induced
injury.
also
attenuates
upregulates
expression
tight
junction
proteins
claudin-1,
occludin,
zonula
occludens-1.
Furthermore,
it
reduces
permeability,
effectively
ameliorating
repairing
histological
induced
addition,
positively
regulates
microbiota,
increasing
relative
abundance
beneficial
bacteria
while
reducing
that
pathogenic
maintaining
flora
rats.
Frontiers in Pharmacology,
Journal Year:
2024,
Volume and Issue:
15
Published: June 4, 2024
Background
and
objectives
Acute
mountain
sickness
(AMS)
is
a
pathology
with
different
symptoms
in
which
the
organism
not
adapted
to
environment
that
occurs
under
special
of
high
altitude.
Its
main
mechanism
organism’s
tissue
damage
caused
by
acute
hypobaric
hypoxia.
Traditional
Chinese
medicine
(TCM)
theory
focuses
on
holistic
concept.
TCM
has
made
remarkable
achievements
treatment
many
sicknesses.
This
review
outlines
pathogenesis
AMS
modern
traditional
medicine,
progress
animal
models
AMS,
summarizes
therapeutic
effects
AMS.
Methods
Using
keywords
“traditional
medicine,”
“herbal
“acute
sickness,”
“high-altitude
pulmonary
edema,”
cerebral
hypoxia,”
“high-altitude,”
all
relevant
literature
published
up
November
2023
were
collected
from
Scopus,
Web
Science,
PubMed,
China
National
Knowledge
Infrastructure
databases,
key
information
was
analyzed.
Results
We
systematically
summarised
hypoxia
tissues
organism,
study
methodology
for
establishment
an
model
retrieved
18
proprietary
medicines
clinical
The
principle
mainly
invigorating
qi,
activating
blood
removing
stasis.
components
botanical
drugs
include
salidroside,
ginsenoside
Rg1,
tetrahydrocurcumin.
action
through
regulation
HIF-1α/NF-κB
signaling
pathway,
inhibition
inflammatory
response
oxidative
stress,
enhancement
energy
metabolism.
Conclusion
unclear.
Still,
formulas
have
been
used
treat
multifaceted
interventions,
such
as
compound
danshen
drip
pills,
Huangqi
Baihe
granules,
Rg1.
These
generally
exert
anti-AMS
pharmacological
inhibiting
expression
VEGF,
concentration
MDA
pro-inflammatory
factors,
down-regulating
NF-κB/NLRP3
promoting
SOD
Na
+
-K
-ATPase
activities,
attenuates
hypoxia-induced
injury.
comprehensively
analyses
application
makes
suggestions
more
in-depth
studies
future,
aiming
provide
some
ideas
insights
subsequent
studies.
International Journal of Molecular Sciences,
Journal Year:
2024,
Volume and Issue:
25(5), P. 3060 - 3060
Published: March 6, 2024
Underwater
activities
are
characterized
by
an
imbalance
between
reactive
oxygen/nitrogen
species
(RONS)
and
antioxidant
mechanisms,
which
can
be
associated
with
inflammatory
response,
depending
on
O2
availability.
This
review
explores
the
oxidative
stress
mechanisms
related
inflammation
status
(Oxy-Inflammation)
in
underwater
such
as
breath-hold
(BH)
diving,
Self-Contained
Breathing
Apparatus
(SCUBA)
Closed-Circuit
Rebreather
(CCR)
saturation
diving.
Divers
exposed
to
hypoxic
hyperoxic
conditions,
amplified
environmental
hyperbaric
pressure,
cold
water,
different
types
of
breathing
gases,
air/non-air
mixtures.
The
“diving
response”,
including
physiological
adaptation,
cardiovascular
stress,
increased
arterial
blood
peripheral
vasoconstriction,
altered
gas
values,
risk
bubble
formation
during
decompression,
reported.
Frontiers in Nutrition,
Journal Year:
2025,
Volume and Issue:
12
Published: Jan. 30, 2025
The
antioxidant
activity
of
natural
products
is
closely
related
to
their
antiglycation
effects.
This
study
aimed
examine
the
and
elucidate
underlying
mechanisms
two
specific
peptides,
EDYGA
(Glu-Asp-Tyr-Gly-Ala)
DLLCIC
(Asp-Leu-Leu-Cys-Ile-Val),
derived
from
protein
hydrolysates
Pelodiscus
sinensis
.
Both
were
efficient
in
bovine
serum
albumin
(BSA)/glucose
model
inhibit
BSA
glycation,
while
showed
higher
than
EDYGA.
Firstly,
it
was
found
that
could
formation
NEG
AGEs.
Moreover,
able
maintain
secondary
structure
stabilize
band
positions
(amide
I
&
II).
Additionally,
molecular
simulations
indicated
can
spontaneously
interact
with
central
site
BSA,
specifically
at
Lys114
Glu424
residues,
through
hydrogen
bonds
an
energy
strength
−0.7
kcal/mol.
Furthermore,
CCK-8
morphological
experiments
confirmed
improved
cell
survival
against
AGEs-induced
cytotoxicity,
EC50
values
17.64
μM
for
15.08
DLLCIC.
These
findings
serve
as
a
significant
reference
development
effective
agents
prevention
glycation-mediated
diseases.
Redox Biology,
Journal Year:
2025,
Volume and Issue:
81, P. 103546 - 103546
Published: March 1, 2025
High-altitude
exposure
has
been
associated
with
an
increased
risk
of
hyperuricemia
(HU)
and
gout,
though
the
underlying
mechanisms
remain
poorly
understood.
We
conducted
a
comprehensive
analysis
serum
metabolome
phenome
in
both
discovery
validation
cohorts
Han
Chinese
individuals
who
underwent
long-term
moderate-altitude
(∼12
months),
as
well
independent
cohort
consisting
local
Tibetans
residing
Nyingchi
(>5
years).
Beta-Alanine
intervention
was
applied
hypoxanthine
potassium
oxonate-induced
vitro
vivo
experiments.
Individuals
exposed
to
moderate
altitude
exhibited
elevated
urate
increase
overall
medium-chain
fatty
acids
(MCFAs),
coupled
decrease
amino
(AAs)
short-chain
(SCFAs).
Rmcorr
correlation
revealed
significant
negative
association
between
urate,
whereas
nonanoic
acid
versa,
potentially
driving
lower
residents.
Both
experiments
demonstrated
that
inhibited
xanthine
oxidase
(XOD)
reversed
HU
phenotype
human
hepatocytes
mice
induced
by
(HX)
oxonate
(PO),
urate-lowering
effect
mice.
Hepatic
pathology
transcriptome
treated
indicated
involved
inhibition
XOD,
amelioration
inflammation
hepatocytes,
promotion
renal
excretion.
Furthermore,
10-fold
cross-validation
random
forest
classification
(RFC)
predictive
modeling
based
on
selected
metabolites
phenotypes
achieved
area
under
receiver
operating
characteristic
(ROC)
curve
(AUC)
value
0.93
(95
%
confidence
interval
(CI):
0.85-1.00)
0.79
CI:
0.59-0.98)
for
distinguishing
high
asymptomatic
(AHU)
training
dataset
dataset,
respectively.
This
study
reveals
altered
could
ameliorate
hyperuricemia.
Our
findings
suggest
targeting
circulating
may
pave
novel
avenues
counter
diseases
HU.
Frontiers in Immunology,
Journal Year:
2025,
Volume and Issue:
16
Published: March 19, 2025
Hypobaric
hypoxia
is
widely
recognized
as
a
prominent
risk
factor
for
high-altitude
cerebral
edema
(HACE),
which
contributes
to
the
exacerbation
of
multiple
pathological
mechanisms,
including
oxidative
stress,
mitochondrial
dysfunction,
disruption
blood−;brain
barrier
integrity,
neuroinflammation,
and
neuronal
apoptosis.
Among
these
abnormalities
in
oxygen
metabolism,
hypoxia,
play
pivotal
roles
pathophysiology
HACE.
In
this
review,
our
objective
enhance
comprehension
underlying
molecular
mechanisms
implicated
HACE
by
investigating
potential
involvement
metabolism.
Addressing
aberrations
metabolism
holds
promise
providing
innovative
therapeutic
strategies
managing
