Small,
Journal Year:
2021,
Volume and Issue:
17(8)
Published: Feb. 1, 2021
Abstract
Invoking
the
occurrence
of
pyroptosis
is
an
emerging
strategy
for
treatment
cancer.
However,
practical
applications
cancer
therapy
are
currently
hindered
due
to
lack
tumor‐specific
and
efficient
pyroptotic
agents
in
vivo.
Herein,
a
virus‐spike
tumor‐activatable
agent
(VTPA)
cancer‐specific
reported.
The
VTPA
composed
organosilica
coated
iron
oxide
nanoparticle
core
spiky
manganese
dioxide
protrusions,
which
can
readily
accumulate
tumor
after
systemic
administration,
facilitate
intracellular
lysosomal
rupture,
be
degraded
by
over‐expressed
glutathione
(GSH)
release
Mn
ions
nanoparticles
(IONPs)
synergetic
activation
nucleotide
binding
oligomerization
domain‐like
receptors
protein
3
(NLRP3)
inflammasomes.
Consequently,
NLRP3
inflammasomes
lactate
dehydrogenase
cells
observed
VTPA,
resulting
specific
cell
death.
To
our
best
knowledge,
structure‐dependent
GSH
activatable
represent
first
demonstration
vivo,
providing
novel
paradigm
development
next‐generation
nanomedicine.
Signal Transduction and Targeted Therapy,
Journal Year:
2023,
Volume and Issue:
8(1)
Published: Sept. 22, 2023
Abstract
Microglia
activation
is
observed
in
various
neurodegenerative
diseases.
Recent
advances
single-cell
technologies
have
revealed
that
these
reactive
microglia
were
with
high
spatial
and
temporal
heterogeneity.
Some
identified
specific
states
correlate
pathological
hallmarks
are
associated
functions.
both
exert
protective
function
by
phagocytosing
clearing
protein
aggregates
play
detrimental
roles
due
to
excessive
uptake
of
aggregates,
which
would
lead
microglial
phagocytic
ability
impairment,
neuroinflammation,
eventually
neurodegeneration.
In
addition,
peripheral
immune
cells
infiltration
shapes
into
a
pro-inflammatory
phenotype
accelerates
disease
progression.
also
act
as
mobile
vehicle
propagate
aggregates.
Extracellular
vesicles
released
from
autophagy
impairment
all
contribute
progression
Thus,
enhancing
phagocytosis,
reducing
microglial-mediated
inhibiting
exosome
synthesis
secretion,
promoting
conversion
considered
be
promising
strategies
for
the
therapy
Here
we
comprehensively
review
biology
diseases,
including
Alzheimer’s
disease,
Parkinson’s
multiple
system
atrophy,
amyotrophic
lateral
sclerosis,
frontotemporal
dementia,
progressive
supranuclear
palsy,
corticobasal
degeneration,
dementia
Lewy
bodies
Huntington’s
disease.
We
summarize
possible
microglia-targeted
interventions
treatments
against
diseases
preclinical
clinical
evidence
cell
experiments,
animal
studies,
trials.
Signal Transduction and Targeted Therapy,
Journal Year:
2023,
Volume and Issue:
8(1)
Published: Feb. 21, 2023
Abstract
Parkinson’s
disease
(PD)
is
the
second
most
common
neurodegenerative
worldwide,
and
its
treatment
remains
a
big
challenge.
The
pathogenesis
of
PD
may
be
related
to
environmental
genetic
factors,
exposure
toxins
gene
mutations
beginning
brain
lesions.
identified
mechanisms
include
α-synuclein
aggregation,
oxidative
stress,
ferroptosis,
mitochondrial
dysfunction,
neuroinflammation,
gut
dysbiosis.
interactions
among
these
molecular
complicate
pose
great
challenges
drug
development.
At
same
time,
diagnosis
detection
are
also
one
obstacles
due
long
latency
complex
mechanism.
Most
conventional
therapeutic
interventions
for
possess
limited
effects
have
serious
side
effects,
heightening
need
develop
novel
treatments
this
disease.
In
review,
we
systematically
summarized
pathogenesis,
especially
PD,
classical
research
models,
clinical
diagnostic
criteria,
reported
therapy
strategies,
as
well
newly
candidates
in
trials.
We
shed
light
on
components
derived
from
medicinal
plants
that
their
treatment,
with
expectation
provide
summary
outlook
developing
next
generation
drugs
preparations
therapy.
Journal of Parkinson s Disease,
Journal Year:
2020,
Volume and Issue:
11(1), P. 45 - 60
Published: Oct. 13, 2020
Mitochondrial
dysfunction
represents
a
well-established
player
in
the
pathogenesis
of
both
monogenic
and
idiopathic
Parkinson’s
disease
(PD).
Initially
originating
from
observation
that
mitochondrial
toxins
cause
PD,
findings
genetic
PD
supported
contribution
to
disease.
Here,
proteins
encoded
by
autosomal
recessively
inherited
genes
Parkin,
PTEN-induced
kinase
1
(PINK1),
DJ-1
are
involved
pathways.
Additional
evidence
for
stems
models
autosomal-dominant
due
mutations
alpha-synuclein
(SNCA)
leucine-rich
repeat
2
(LRRK2).
Moreover,
patients
harboring
alterations
polymerase
gamma
(POLG)
often
exhibit
signs
parkinsonism.
While
some
molecular
studies
suggest
is
primary
event
others
speculate
it
result
impaired
clearance.
Most
recent
research
even
implicated
damage-associated
patterns
released
non-degraded
mitochondria
neuroinflammatory
processes
PD.
we
summarize
manifold
literature
dealing
with
context
light
advances
field
personalized
medicine,
patient
stratification
according
degree
impairment
followed
enhancement
therapy
may
hold
potential
at
least
subset
cases.
Thus,
second
part
this
review,
discuss
therapeutic
approaches
targeting
aim
prevent
or
delay
neurodegeneration
Frontiers in Cell and Developmental Biology,
Journal Year:
2021,
Volume and Issue:
9
Published: Aug. 13, 2021
Ageing
is
an
inevitable
event
in
the
lifecycle
of
all
organisms,
characterized
by
progressive
physiological
deterioration
and
increased
vulnerability
to
death.
has
also
been
described
as
primary
risk
factor
most
neurodegenerative
diseases,
including
Alzheimer’s
disease
(AD),
Parkinson’s
(PD),
Huntington’s
(HD),
frontotemporal
lobar
dementia
(FTD).
These
diseases
occur
more
prevalently
aged
populations.
Few
effective
treatments
have
identified
treat
these
epidemic
neurological
crises.
Neurodegenerative
are
associated
with
enormous
socioeconomic
personal
costs.
Here,
pathogenesis
AD,
PD,
other
presented,
a
summary
their
known
associations
biological
hallmarks
ageing:
genomic
instability,
telomere
attrition,
epigenetic
alterations,
loss
proteostasis,
mitochondrial
dysfunction,
cellular
senescence,
deregulated
nutrient
sensing,
stem
cell
exhaustion,
altered
intercellular
communications.
Understanding
central
mechanisms
that
underlie
ageing
important
for
identifying
novel
therapeutic
targets
diseases.
Potential
strategies,
use
NAD
+
precursors,
mitophagy
inducers,
inhibitors
discussed.
Advanced Materials,
Journal Year:
2022,
Volume and Issue:
34(15)
Published: Feb. 10, 2022
Current
pharmacological
interventions
for
Parkinson's
disease
(PD)
remain
unsatisfactory
in
clinical
settings.
Inflammasome-mediated
pyroptosis
represents
a
potential
therapeutic
target
the
alleviation
of
neurodegenerative
diseases.
The
development
inflammasome-mediated
agonists
or
antagonists
may
transform
treatment
However,
identification
specific
compounds
that
inhibit
remains
challenging.
Herein,
Prussian
blue
nanozyme
(PBzyme)
is
revealed
as
inhibitor
to
alleviate
neurodegeneration
mouse
and
cell
models
PD.
PBzyme
protects
microglia
neurons
against
1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine
(MPTP).
alleviates
motor
deficits,
attenuates
damage
mitochondrial
membrane
potential,
rescues
dopaminergic
neurons.
Furthermore,
intra-cerebroventricular
injection
reduces
degeneration
inhibits
neuroinflammation
an
MPTP-induced
PD
model.
Both
vitro
vivo
results
demonstrate
activation
microglial
nucleotide-binding
domain
leucine-rich
repeat
family
pyrin
containing
3
(NLRP3)
inflammasomes
caspase-1
by
scavenging
reactive
oxygen
species,
thereby
downregulating
gasdermin
D
(GSDMD)
cleavage
well
inflammatory
factor
production,
eventually
leading
inhibition
pyroptosis.
Overall,
this
work
highlights
neuroprotective
effects
provides
valuable
mechanistic
insights
strategy
Pharmacological Reviews,
Journal Year:
2022,
Volume and Issue:
75(1), P. 62 - 158
Published: Dec. 8, 2022
The
neurotransmitter
dopamine
is
a
key
factor
in
central
nervous
system
(CNS)
function,
regulating
many
processes
including
reward,
movement,
and
cognition.
Dopamine
also
regulates
critical
functions
peripheral
organs,
such
as
blood
pressure,
renal
activity,
intestinal
motility.
Beyond
these
functions,
growing
body
of
evidence
indicates
that
an
important
immunoregulatory
factor.
Most
types
immune
cells
express
receptors
other
dopaminergic
proteins,
take
up,
produce,
store,
and/or
release
dopamine,
suggesting
immunomodulation
for
function.
Targeting
pathways
could
be
promising
avenue
the
treatment
inflammation
disease,
but
despite
increasing
research
this
area,
data
on
specific
effects
disease
remain
inconsistent
poorly
understood.
Therefore,
review
integrates
current
knowledge
role
cell
function
inflammatory
signaling
across
systems.
We
discuss
understanding
regulation
CNS
tissues,
highlighting
diseases
Parkinson’s
several
neuropsychiatric
conditions,
neurologic
human
immunodeficiency
virus,
bowel
rheumatoid
arthritis,
others.
Careful
consideration
given
to
influence
experimental
design
results,
we
note
number
areas
need
further
research.
Overall,
our
immunology
at
cellular,
tissue,
level
prompts
development
therapeutics
strategies
targeted
toward
ameliorating
through
immunity.
Significance
Statement
Canonically,
recognized
involved
cognition,
reward.
However,
acts
modulator
periphery.
This
comprehensively
assesses
pathogenesis
cellular
tissue
level.
will
provide
broad
access
information
fields,
identify
investigation,
drive
therapeutic
strategies.
Frontiers in Pharmacology,
Journal Year:
2021,
Volume and Issue:
12
Published: March 10, 2021
The
prevalence
of
neurodegenerative
disease
has
increased
significantly
in
recent
years,
and
with
a
rapidly
aging
global
population,
this
trend
is
expected
to
continue.
These
diseases
are
characterised
by
progressive
neuronal
loss
the
brain
or
peripheral
nervous
system,
generally
involve
protein
aggregation,
as
well
metabolic
abnormalities
immune
dysregulation.
Although
vast
majority
neurodegeneration
idiopathic,
there
many
known
genetic
environmental
triggers.
In
past
decade,
research
exploring
low-grade
systemic
inflammation
its
impact
on
development
progression
increased.
A
particular
focus
been
whether
arises
only
secondary
effect
also
cause
pathology.
inflammasomes,
more
specifically
NLRP3
inflammasome,
crucial
component
innate
usually
activated
response
infection
tissue
damage.
Dysregulation
inflammasome
implicated
several
disorders,
such
Alzheimer’s
disease,
Parkinson’s
Huntington’s
amyotrophic
lateral
sclerosis,
prion
diseases.
This
review
aims
summarise
current
literature
role
pathogenesis
diseases,
work
investigating
inhibition
potential
future
therapy.
Redox Biology,
Journal Year:
2021,
Volume and Issue:
47, P. 102134 - 102134
Published: Sept. 22, 2021
Parkinson's
disease
(PD)
is
a
chronic
neurodegenerative
disorder
that
characterized
by
motor
symptoms
as
result
of
loss
dopaminergic
neurons
in
the
substantia
nigra
pars
compacta
(SNc),
accompanied
neuroinflammation,
oxidative
stress,
formation
α-synuclein
aggregates.
Celastrol,
potent
anti-inflammatory
and
anti-oxidative
pentacyclic
triterpene,
has
emerged
neuroprotective
agent.
However,
mechanisms
which
celastrol
PD
remain
elusive.
Here
we
show
protects
against
dopamine
neuron
loss,
mitigates
relieves
deficits
MPTP-induced
mouse
model
AAV-mediated
human
overexpression
model.
Whole-genome
deep
sequencing
analysis
revealed
Nrf2,
NLRP3
caspase-1
SNc
may
be
associated
with
actions
PD.
By
using
multiple
genetically
modified
mice
(Nrf2-KO,
NLRP3-KO
Caspase-1-KO),
identified
inhibits
inflammasome
activation,
nigrostriatal
degeneration
through
Nrf2-NLRP3-caspase-1
pathway.
Taken
together,
these
findings
suggest
axis
serve
key
target
treatment,
highlight
favorable
properties
for
neuroprotection,
making
promising
disease-modifying
agent
Frontiers in Immunology,
Journal Year:
2021,
Volume and Issue:
12
Published: Oct. 8, 2021
According
to
emerging
studies,
the
excessive
activation
of
microglia
and
subsequent
release
pro-inflammatory
cytokines
play
important
roles
in
pathogenesis
progression
Parkinson’s
disease
(PD).
However,
exact
mechanisms
governing
chronic
neuroinflammation
remain
elusive.
Findings
demonstrate
an
elevated
level
NLRP3
inflammasome
activated
substantia
nigra
PD
patients.
Activated
aggravates
pathology
accelerates
neurodegenerative
diseases.
Abnormal
protein
aggregation
α-synuclein
(α-syn),
a
pathologically
relevant
PD,
were
reported
activate
through
interaction
with
toll-like
receptors
(TLRs).
This
eventually
releases
translocation
nuclear
factor
kappa-B
(NF-κB)
causes
impairment
mitochondria,
thus
damaging
dopaminergic
neurons.
Currently,
therapeutic
drugs
for
are
primarily
aimed
at
providing
relief
from
its
clinical
symptoms,
there
no
well-established
strategies
halt
or
reverse
this
disease.
In
review,
we
update
existing
knowledge
on
role
α-syn/TLRs/NF-κB/NLRP3
axis
microglial
PD.
addition,
review
summarizes
recent
progress
as
potential
target
treatment
by
inhibiting
activation.
