Kidney Research and Clinical Practice,
Год журнала:
2023,
Номер
42(5), С. 564 - 560
Опубликована: Май 22, 2023
Most
eukaryotic
cells
have
mitochondrial
networks
that
can
change
in
shape,
distribution,
and
size
depending
on
cellular
metabolic
demands
environments.
Mitochondrial
quality
control
is
critical
for
various
functions
including
energy
production,
redox
homeostasis,
intracellular
calcium
handling,
cell
differentiation,
proliferation,
death.
Quality
mechanisms
within
mitochondria
consist
of
antioxidant
defenses,
protein
control,
DNA
damage
repair
systems,
fusion
fission,
mitophagy,
biogenesis.
Defects
disruption
homeostasis
are
common
characteristics
kidney
types
under
hyperglycemic
conditions.
Such
defects
contribute
to
diabetes-induced
pathologies
renal
tubular
cells,
podocytes,
endothelial
immune
cells.
In
this
review,
we
focus
the
roles
diabetic
disease
pathogenesis
discuss
current
research
evidence
future
directions.
Biomedicine & Pharmacotherapy,
Год журнала:
2023,
Номер
168, С. 115670 - 115670
Опубликована: Окт. 13, 2023
Diabetic
nephropathy
(DN)
is
a
severe
complication
of
diabetes
mellitus,
posing
significant
challenges
in
terms
early
prevention,
clinical
diagnosis,
and
treatment.
Consequently,
it
has
emerged
as
major
contributor
to
end-stage
renal
disease.
The
glomerular
filtration
barrier,
composed
podocytes,
endothelial
cells,
the
basement
membrane,
plays
vital
role
maintaining
function.
Disruptions
podocyte
function,
including
hypertrophy,
shedding,
reduced
density,
apoptosis,
can
impair
integrity
resulting
elevated
proteinuria,
abnormal
rate,
increased
creatinine
levels.
Hence,
recent
research
increasingly
focused
on
injury
DN,
with
growing
emphasis
exploring
therapeutic
interventions
targeting
injury.
Studies
have
revealed
that
factors
such
lipotoxicity,
hemodynamic
abnormalities,
oxidative
stress,
mitochondrial
dysfunction,
impaired
autophagy
contribute
This
review
aims
summarize
underlying
mechanisms
DN
provide
an
overview
current
status
regarding
experimental
drugs
DN.
findings
presented
herein
may
offer
potential
targets
strategies
for
management
associated
Scientific Reports,
Год журнала:
2025,
Номер
15(1)
Опубликована: Янв. 2, 2025
Chronic
kidney
disease
(CKD)
stands
as
a
formidable
global
health
challenge,
often
advancing
to
end-stage
renal
(ESRD)
with
devastating
morbidity
and
mortality.
At
the
central
of
this
progression
lies
podocyte
injury,
critical
determinant
glomerular
dysfunction.
Compound
K
(CK),
bioactive
metabolite
derived
from
ginsenoside,
has
emerged
compelling
candidate
for
nephroprotective
therapy.
Here,
we
unveil
profound
therapeutic
potential
CK
in
folic
acid
(FA)-induced
CKD
mouse
model,
demonstrating
its
ability
restore
function
mitigate
injury.
exerted
effects
by
reinforcing
inter-podocyte
junctions,
suppressing
aberrant
motility,
preventing
detachment
apoptosis,
thereby
safeguarding
filtration
barrier.
Mechanistically,
identified
mitochondrial
dysregulation
key
driver
excessive
oxidative
stress,
which
is
commonly
associated
damage.
remarkably
restored
homeostasis
attenuating
pathological
fission
enhancing
mitophagy,
rebalancing
delicate
network.
Intriguingly,
may
disrupt
formation
Drp1-Bax
dimer,
crucial
mediator
further
averting
loss.
Collectively,
our
findings
highlight
potent
agent,
offering
novel
avenue
management
redefining
possibilities
battle
against
progressive
disease.
Free Radical Biology and Medicine,
Год журнала:
2023,
Номер
203, С. 45 - 57
Опубликована: Апрель 6, 2023
Defective
antioxidant
system
as
well
mitochondrial
dysfunction
contributes
to
the
pathogenesis
and
progression
of
diabetic
kidney
disease
(DKD).
Nuclear
factor
erythroid
2-related
2
(Nrf2)-mediated
signaling
is
central
defensive
mechanism
against
oxidative
stress
therefore
pharmacological
activation
Nrf2
a
promising
therapeutic
strategy.
In
this
study,
using
molecular
docking
we
found
that
Astragaloside
IV
(AS-IV),
an
active
ingredient
from
traditional
formula
Huangqi
decoction
(HQD),
exerted
higher
potential
promote
escape
Keap1-Nrf2
interaction
via
competitively
bind
amino
acid
sites
in
Keap1.
When
podocyte
exposed
high
glucose
(HG)
stimulation,
morphological
alterations
apoptosis
were
presented
accompanied
by
transcription
A
(TFAM)
downregulation.
Mechanistically,
HG
promoted
decrease
mitochondria-specific
electron
transport
chain
(ETC)
complexes,
ATP
synthesis
mtDNA
content
increased
ROS
production.
Conversely,
all
these
defects
dramatically
alleviated
AS-IV,
but
suppression
with
inhibitor
or
siRNA
TFAM
simultaneously
AS-IV
efficacy.
Moreover,
experimental
mice
exhibited
significant
renal
injury
disorder,
corresponding
decreased
expression
TFAM.
On
contrary,
reversed
abnormality
also
restored.
Taken
together,
present
findings
demonstrate
improvement
on
function,
thereby
resistance
stress-induced
apoptosis,
process
closely
associated
Nrf2-ARE/TFAM
signaling.
Objectives:
Diabetic
nephropathy
(DN)
is
the
most
common
microvascular
complication
of
diabetes
mellitus.
This
study
investigated
mechanism
triptolide
(TP)
in
podocyte
injury
DN.Methods:
DN
mouse
models
were
established
by
feeding
with
a
high-fat
diet
and
injecting
streptozocin
MPC5
induced
high-glucose
(HG),
followed
TP
treatment.
Fasting
blood
glucose
renal
function
indicators,
such
as
24
h
urine
albumin
(UAlb),
serum
creatinine
(SCr),
urea
nitrogen
(BUN),
kidney/body
weight
ratio
mice
examined.
H&E
TUNEL
staining
performed
for
evaluating
pathological
changes
apoptosis
tissue.
The
markers,
reactive
oxygen
species
(ROS),
oxidative
stress
(OS),
inflammatory
cytokines,
nuclear
factor-erythroid
2-related
factor
2
(Nrf2)
pathway-related
proteins,
pyroptosis
detected
Western
blotting
corresponding
kits.
cell
viability
evaluated
MTT
Hoechst
33342/PI
double-fluorescence
staining.
Nrf2
inhibitor
ML385
was
used
to
verify
regulation
on
Nrf2.Results:
improved
histopathological
mice,
alleviated
podocytes
injury,
reduced
OS
ROS
activating
Nrf2/heme
oxygenase-1
(HO-1)
pathway,
weakened
inhibiting
nod-like
receptor
(NLR)
family
pyrin
domain
containing
3
(NLRP3)
inflammasome
pathway.
In
vitro
experiments
further
verified
inhibition
mediating
Nrf2/HO-1
NLRP3
pathways.
Inhibition
reversed
protective
effect
cells.Conclusions:
Overall,
via
Nrf2/ROS/NLRP3
axis.
Molecular Medicine,
Год журнала:
2023,
Номер
29(1)
Опубликована: Окт. 12, 2023
Diabetic
kidney
disease
(DKD)
is
the
main
cause
of
end-stage
renal
disease,
and
its
clinical
manifestations
are
progressive
proteinuria,
decreased
glomerular
filtration
rate,
failure.
The
injury
death
podocytes
keys
to
DKD.
Currently,
a
variety
cell
modes
have
been
identified
in
podocytes,
including
apoptosis,
autophagy,
endoplasmic
reticulum
(ER)
stress,
pyroptosis,
necroptosis,
ferroptosis,
mitotic
catastrophe,
etc.
signaling
pathways
leading
these
processes
interconnected
can
be
activated
simultaneously
or
parallel.
They
essential
for
survival
that
determine
fate
cells.
With
deepening
research
on
mechanism
death,
more
researchers
devoted
their
attention
underlying
pathologic
drug
therapy
In
this
paper,
we
discussed
podocyte
physiologic
role
DKD
processes.
We
also
provide
an
overview
types
specific
mechanisms
involved
each
type
DKD,
as
well
related
targeted
methods
drugs
reviewed.
last
part
discuss
complexity
potential
crosstalk
between
various
which
will
help
improve
understanding
lay
foundation
new
ideal
strategies
treatment
future.
Journal of Biochemical and Molecular Toxicology,
Год журнала:
2023,
Номер
37(12)
Опубликована: Сен. 14, 2023
Diabetic
kidney
disease
(DKD)
is
a
devastating
complication
of
diabetes
mellitus
(DM)
and
the
most
prevalent
chronic
(CKD).
Poricoic
acid
A
(PAA),
component
isolated
from
Traditional
Chinese
Medicine
(TCM)
Poria
cocos,
has
hypoglycaemic
anti-fibrosis
effects.
However,
role
PAA
in
DKD
remains
largely
unclear.
To
mimics
an
vitro
model
DKD,
mouse
podocyte
MPC5
cells
were
treated
with
high
glucose
(25
mM;
HG)
for
24
h.
CCK-8
flow
cytometry
assays
conducted
assessing
cell
viability
apoptosis.
Meanwhile,
streptozotocin
(STZ)
was
used
to
induce
experimental
mice
by
intraperitoneal
injection.
notably
inhibited
apoptosis
inflammation,
reduced
generation
ROS,
elevated
MMP
level
HG-treated
cells.
Moreover,
obviously
blood
urine
protein
levels,
renal
fibrosis
mice.
markedly
increased
LC3
ATG5
levels
declined
p62
FUNDC1
tissues
mice,
leading
activation
mitophagy.
Furthermore,
downregulation
also
apoptosis,
promoted
mitophagy
As
expected,
knockdown
further
enhanced
protective
following
HG
treatment,
indicating
that
induction
could
attenuate
injury.
Collectively,
exert
beneficial
effects
on
injury
promoting
via
downregulating
FUNDC1.
These
findings
suggested
may
have
great
potential
alleviating
DKD.
Journal of Translational Medicine,
Год журнала:
2024,
Номер
22(1)
Опубликована: Янв. 5, 2024
Abstract
Background
(Pro)renin
receptor
(PRR)
is
highly
expressed
in
renal
tubules,
which
involved
physiological
and
pathological
processes.
However,
the
role
of
PRR,
tubular
epithelial
cells,
diabetic
kidney
disease
(DKD)
remain
largely
unknown.
Methods
In
this
study,
biopsies,
urine
samples,
public
RNA-seq
data
from
DKD
patients
were
used
to
assess
PRR
expression
cell
pyroptosis
cells.
The
regulation
by
was
investigated
situ
injection
adeno-associated
virus9
(AAV9)-shRNA
into
db/db
mice,
knockdown
or
overexpression
HK-2
To
reveal
underlined
mechanism,
interaction
with
potential
binding
proteins
explored
using
BioGrid
database.
Furthermore,
direct
dipeptidyl
peptidase
4
(DPP4),
a
pleiotropic
serine
increases
blood
glucose
degrading
incretins
under
conditions,
confirmed
co-immunoprecipitation
assay
immunostaining.
Results
Higher
found
tubules
positively
correlated
injuries
patients,
parallel
cells
pyroptosis.
Knockdown
kidneys
significantly
blunted
mice
injury
alleviating
resultant
interstitial
inflammation.
Moreover,
silencing
blocked
high
glucose-induced
pyroptosis,
whereas
enhanced
pyroptotic
death
Mechanistically,
selectively
bound
cysteine-enrich
region
C-terminal
DPP4
augmented
protein
abundance
DPP4,
leading
downstream
activation
JNK
signaling
suppression
SIRT3
FGFR1
signaling,
then
subsequently
mediated
death.
Conclusions
This
study
identified
significant
pathogenesis
DKD;
specifically,
promoted
via
highlighting
that
could
be
promising
therapeutic
target
DKD.
Abstract
Diabetic
kidney
disease
(DKD)
is
one
of
the
severe
complications
diabetes
mellitus,
yet
there
no
effective
treatment.
Exploring
development
DKD
essential
to
Podocyte
injury
and
inflammation
are
closely
related
DKD.
However,
mechanism
podocyte
progression
in
remains
largely
unclear.
Here,
we
observed
that
FTO
expression
was
significantly
upregulated
high
glucose‐induced
podocytes
overexpression
promoted
inflammation.
By
performing
RNA‐seq
MeRIP‐seq
with
control
or
without
knockdown,
revealed
serum
amyloid
A2
(SAA2)
a
target
FTO‐mediated
m6A
modification.
Knockdown
markedly
increased
SAA2
mRNA
modification
decreased
expression.
Mechanistically,
demonstrated
might
participate
through
activation
NF‐κB
signaling
pathway.
Furthermore,
by
generating
podocyte‐specific
adeno‐associated
virus
9
(AAV9)
knockdown
mice,
discovered
depletion
restored
Together,
our
results
suggested
upregulation
m6A‐dependent
regulation,
thus
suggesting
may
be
therapeutic
for
diabetic
disease.
AJP Renal Physiology,
Год журнала:
2024,
Номер
326(6), С. F877 - F893
Опубликована: Апрель 11, 2024
Autophagy
is
a
protective
mechanism
through
which
cells
degrade
and
recycle
proteins
organelles
to
maintain
cellular
homeostasis
integrity.
An
accumulating
body
of
evidence
underscores
the
significant
impact
dysregulated
autophagy
on
podocyte
injury
in
chronic
kidney
disease
(CKD).
In
this
review,
we
provide
comprehensive
overview
diverse
types
their
regulation
homeostasis,
with
specific
emphasis
podocytes.
Furthermore,
discuss
recent
findings
that
focus
functional
role
different
during
disease.
The
intricate
interplay
between
health
requires
further
research,
critical
for
understanding
pathogenesis
CKD
developing
targeted
therapeutic
interventions.
