ACS Applied Materials & Interfaces,
Journal Year:
2024,
Volume and Issue:
16(42), P. 56696 - 56704
Published: Oct. 8, 2024
Biodegradable
versatile
inorganic
nanomaterials
are
highly
desirable
in
the
field
of
nanomedicine.
Here,
for
first
time,
we
report
a
kind
novel
two-dimensional
biodegradable
l-cysteine-iodine
(l-Cys-I)
nanosheet
with
high
computed
tomography
(CT)
imaging
ability
and
sonosensitization
efficacy.
Such
l-Cys-I
nanosheets
consist
iodine
molecules
l-Cys,
where
coordinated
stabilized
by
l-Cys
cross-linked
to
form
through
disulfide
bonds.
The
large
convenient
functional
surface
is
further
modified
targeting
moieties
DSPE-PEG-RGD
cancer
drug
doxorubicin
(DOX)
construct
nanotheranostic
nanoplatform
(CIRD).
Under
ultrasound
irradiation,
CIRD
assist
tremendous
reactive
oxygen
species
generation
controllable
DOX
release,
leading
remarkable
anticancer
performance
both
vitro
vivo
due
synergistic
sonodynamic
therapy
(SDT)
chemotherapy.
Our
results
validate
that
enable
effective
body
excretion
negligible
systemic
toxicity
owing
biodegradation
properties.
nanosheets,
biodegradability,
biocompatibility,
versatility,
hold
great
promise
nanotheranostics.
Inorganics,
Journal Year:
2024,
Volume and Issue:
12(12), P. 331 - 331
Published: Dec. 18, 2024
A
type
of
nanoparticle
has
been
developed
to
simultaneously
alleviate
tumor
hypoxia
and
enhance
the
effectiveness
sonodynamic
therapy
aimed
at
improving
cancer
treatment
outcomes.
Small-sized
iron–platinum
nanoparticles
were
prepared
using
a
thermal
reduction
method,
their
particle
size
crystal
structure
characterized.
The
ability
these
decompose
hydrogen
peroxide
produce
oxygen
generate
singlet
under
ultrasound
irradiation
was
further
tested.
effect
on
inhibition
proliferation
MCF-7
cells
hypoxic
conditions
also
evaluated.
effectively
decomposed
oxygen,
reversing
environment
tumors.
Additionally,
they
generated
irradiation,
which
killed
inhibited
proliferation.
This
study
successfully
small-sized
that
can
by
decomposing
excess
in
oxygen.
Under
inhibiting
growth.
demonstrated
good
safety
are
potentially
valuable
enhancing
oxygen-enhanced
therapy.
Small,
Journal Year:
2025,
Volume and Issue:
unknown
Published: Jan. 5, 2025
Copper-based
nanoparticles
have
garnered
significant
interest
in
cancer
therapy
due
to
their
ability
induce
oxidative
stress
and
cuproptosis
cells.
However,
antitumor
effectiveness
is
constrained
by
the
dynamic
redox
balance
metabolic
shift
between
phosphorylation
glycolysis.
Here,
a
polydopamine-coated
copper-α-ketoglutaric
acid
(α-KG)
coordination
polymer
nanoparticle
(CKPP)
designed
for
combined
pyroptosis-cuproptosis
immunotherapy
amplifying
reactive
oxygen
species
(ROS)
production
regulating
cellular
metabolism.
The
intracellular
imbalance
achieved
through
synergistic
effects
of
α-KG-induced
mitochondrial
reprogramming,
photothermally
enhanced
superoxide
dismutase-like
activity
polydopamine,
glutathione
depletion
copper
ions.
multifaceted
modulation
results
substantial
increase
ROS
levels,
triggering
subsequent
pyroptosis
Furthermore,
α-KG
shifts
metabolism
from
glycolysis
phosphorylation,
thereby
enhancing
induced
combination
dyshomeostasis
inhibition
potent
enhancement
pyroptosis-cuproptosis-mediated
therapy.
In
murine
model
colorectal
cancer,
CKPP
exhibited
remarkable
anticancer
effect,
achieving
tumor
rate
96.3%
complete
eradication
two
out
five
cases.
Overall,
this
bio-engineered
metal-organic
nanocomposite
demonstrates
potential
treating
immunotherapy.
Advanced Materials,
Journal Year:
2024,
Volume and Issue:
36(45)
Published: Sept. 3, 2024
Abstract
Addressing
the
inefficiency
of
current
therapeutic
approaches
for
hepatocellular
carcinoma
is
an
urgent
and
pressing
challenge.
PANoptosis,
a
form
inflammatory
programmed
cell
death,
presents
dependable
strategy
combating
cancer
by
engaging
multiple
death
pathways
(apoptosis,
pyroptosis,
necroptosis).
In
this
study,
ultrasmall
Bi
2
Sn
O
7
nanozyme
with
ultrasound‐magnified
multienzyme‐mimicking
properties
designed
engineered
as
PANoptosis
inducer
through
destroying
mitochondrial
function
tumor
cells
enhancing
intracellular
accumulation
toxic
reactive
oxygen
species,
finally
triggering
activation
process.
The
role
has
been
verified
expression
related
proteins,
including
cleaved
Caspase
3,
NLRP3,
N‐GSDMD,
1,
p‐MLKL,
RIPK3.
inclusion
external
ultrasonic
irradiation
significantly
augments
enzyodynamic
efficiency.
vitro
in
vivo
antineoplastic
efficacy,
along
inhibition
lung
metastasis,
validate
benefits
‐mediated
pathway.
This
study
not
only
elucidates
intricate
mechanisms
underlying
inducer,
but
also
offers
novel
perspective
treatment
carcinoma.
Advanced Science,
Journal Year:
2024,
Volume and Issue:
unknown
Published: July 10, 2024
Glioblastoma
multiforme
(GBM)
is
the
most
common
primary
malignant
brain
tumor
and
known
for
its
challenging
prognosis.
Sonodynamic
therapy
(SDT)
an
innovative
therapeutic
approach
that
shows
promise
in
elimination
by
activating
sonosensitizers
with
low-intensity
ultrasound.
In
this
study,
a
novel
sonosensitizer
synthesized
using
Cu-doped
carbon
dots
(Cu-CDs)
sonodynamic
treatment
of
GBM.
Doping
copper
transforms
into
p-n
type
semiconductor
having
bandgap
1.58
eV,
prolonged
lifespan
10.7
µs,
improved
electron-
hole-separation
efficiency.
The
effect
efficiency
enhanced.
Western
blot
analysis
reveals
Cu-CDs
induces
biological
response
leading
to
cell
death,
termed
as
cuproptosis.
Specifically,
upregulate
dihydrosulfanyl
transacetylase
expression,
thereby
establishing
synergistic
against
death
when
combined
SDT.
Furthermore,
exhibit
excellent
permeability
through
blood-brain
barrier
potent
anti-tumor
activity.
Importantly,
effectively
impede
growth
glioblastoma
tumors
prolong
survival
mice
bearing
these
tumors.
This
study
provides
support
application
carbon-based
nanomaterials
therapy.
Advanced Healthcare Materials,
Journal Year:
2024,
Volume and Issue:
13(16)
Published: March 2, 2024
Abstract
Surgical
resection
of
bone
tumors
is
the
primary
approach
employed
in
treatment
cancer.
Simultaneously,
perioperative
interventions,
particularly
postoperative
adjuvant
anticancer
strategies,
play
a
crucial
role
achieving
satisfactory
therapeutic
outcomes.
However,
occurrence
tumor
recurrence,
metastasis,
extensive
defects,
and
infection
are
significant
risks
that
can
result
unfavorable
prognoses
or
even
failure.
In
recent
years,
there
has
been
progress
development
biomaterials,
leading
to
emergence
new
options
for
therapy
regeneration.
This
report
aims
comprehensively
analyze
strategic
unique
biomaterials
with
inherent
healing
properties
bioactive
capabilities
tissue
These
composite
classified
into
metallic,
inorganic
non‐metallic,
organic
types,
thoroughly
investigated
their
responses
external
stimuli
such
as
light
magnetic
fields,
internal
interventions
including
chemotherapy
catalytic
therapy,
combination
well
Additionally,
an
overview
self‐healing
materials
osteogenesis
provided
potential
applications
combating
osteosarcoma
promoting
formation
explored.
Furthermore,
safety
concerns
integrated
current
limitations
addressed,
while
also
discussing
challenges
future
prospects.
Advanced Functional Materials,
Journal Year:
2025,
Volume and Issue:
unknown
Published: Jan. 10, 2025
Abstract
Enhancing
the
efficacy
of
glioma
treatment
poses
a
significant
challenge.
Ferroelectric
nanomaterials,
renowned
for
their
remarkable
piezoelectric
properties,
generate
reactive
oxygen
species
(ROS)
when
exposed
to
external
stimuli
or
specific
environmental
conditions.
This
characteristic
positions
them
as
promising
platforms
highly
effective
cancer
therapies.
In
this
study,
two‐dimensional
(2D)
black
Bi
4
Ti
3
O
12
ferroelectric
perovskite
nanocatalysts
with
engineered
vacancies
are
designed
potent
sources
ROS
efficient
therapy.
The
band
bending
due
polarization
and
narrowed
bandgap
induced
by
vacancy
defects
effectively
enhance
carrier
separation,
suppress
recombination
rates,
markedly
increase
production.
Moreover,
mitochondrial
dysfunction
activation
mitogen‐activated
protein
kinase
(MAPK)
pathways
contribute
favorable
anti‐tumor
effects.
vitro
cellular‐level
assessments
in
vivo
antineoplastic
evaluations
unequivocally
demonstrate
enhanced
cytotoxicity
tumor
suppression
enabled
piezo‐catalytic
strategy.
research
underscores
role
defect
engineering
optimizing
effectiveness
semiconductors
catalytically
inducing
apoptosis
cells.
Journal of Materials Chemistry B,
Journal Year:
2024,
Volume and Issue:
12(25), P. 6091 - 6101
Published: Jan. 1, 2024
Due
to
the
rapid
progression
and
aggressive
metastasis
of
breast
cancer,
its
diagnosis
treatment
remain
a
great
challenge.
The
simultaneous
inhibition
tumor
growth
is
necessary
for
cancer
obtain
ideal
therapeutic
outcomes.
We
herein
report
development
radioactive
hybrid
semiconducting
polymer
nanoparticles
(SPNH)
imaging-guided
tri-modal
therapy
cancer.
Two
polymers
are
used
form
SPNH
with
diameter
around
60
nm
via
nano-coprecipitation
they
also
labeled
iodine-131
(131I)
enhance
imaging
functions.
formed
show
good
radiolabeling
stability
excellent
photodynamic
photothermal
effects
under
808
laser
irradiation
produce
singlet
oxygen
(1O2)
heat.
Moreover,
can
generate
1O2
ultrasound
their
sonodynamic
properties.
After
intravenous
tail
vein
injection,
effectively
accumulate
in
subcutaneous
4T1
tumors
living
mice
as
verified
fluorescence
single
photon
emission
computed
tomography
(SPECT)
imaging.
With
using
an
US,
mediate
(PDT),
(PTT)
(SDT)
kill
cells.
Such
leads
improved
efficacy
inhibiting
suppressing
compared
sole
SDT
combinational
PDT-PTT.
This
study
thus
demonstrates
applications
diagnose
combine
different
therapies
effective
treatment.
