Acta Pharmaceutica Sinica B,
Journal Year:
2022,
Volume and Issue:
12(8), P. 3427 - 3447
Published: Jan. 13, 2022
Platelets
buoy
up
cancer
metastasis
via
arresting
cells,
enhancing
their
adhesion,
and
facilitating
extravasation
through
the
vasculature.
When
deprived
of
intracellular
granular
contents,
platelet
decoys
could
prevent
metastatic
tumor
formation.
Inspired
by
these,
we
developed
nanoplatesomes
fusing
membranes
with
lipid
(P-Lipo)
to
restrain
formation
more
efficiently.
It
was
shown
nanoplateletsomes
bound
circulating
cells
(CTC)
efficiently,
interfered
CTC
arrest
vessel
endothelial
layers,
epithelial-mesenchymal
transition
as
nanodecoys.
More
importantly,
in
mouse
breast
model,
decrease
survival
blood
counteract
growth
efficiently
inhibiting
inflammation
suppressing
escape.
Therefore,
nanoplatelesomes
might
usher
a
new
avenue
suppress
lung
metastasis.
Symmetry,
Journal Year:
2023,
Volume and Issue:
15(2), P. 403 - 403
Published: Feb. 3, 2023
Metal-organic
frameworks
(MOFs)
are
a
new
class
of
porous
crystalline
materials
composed
metal
and
organic
material.
MOFs
have
fascinating
properties,
such
as
fine
tunability,
large
specific
surface
area,
high
porosity.
widely
used
for
environmental
protection,
biosensors,
regenerative
medicine,
medical
engineering,
cell
therapy,
catalysts,
drug
delivery.
Recent
studies
reported
various
significant
properties
biomedical
applications,
detection
In
contrast,
limitations
low
stability
specificity
in
binding
to
the
target.
MOF-based
membranes
improve
conventional
by
increasing
area
developing
possibility
MOF-ligand
binding,
while
conjugated
dramatically
increase
active
functional
groups.
This
special
property
makes
them
attractive
biosensor
fabrication,
both
spreading
solubility
components
porosity
can
be
changed.
Asymmetric
structure
with
potential
field,
due
different
characteristics
on
its
two
surfaces,
adjusting
size
porosity,
transfer
rate
selectivity,
hydrophilicity
hydrophobicity.
MOF
assisted
asymmetric
provide
platform
field.
The
latest
version
materials/membranes
has
several
especially
delivery,
which
will
discussed
this
review,
along
their
advantages,
disadvantages,
challenges.
Molecules,
Journal Year:
2023,
Volume and Issue:
28(22), P. 7674 - 7674
Published: Nov. 20, 2023
Pathogens
cause
infections
and
millions
of
deaths
globally,
while
antipathogens
are
drugs
or
treatments
designed
to
combat
them.
To
date,
multifunctional
nanomaterials
(NMs),
such
as
organic,
inorganic,
nanocomposites,
have
attracted
significant
attention
by
transforming
antipathogen
livelihoods.
They
very
small
in
size
so
can
quickly
pass
through
the
walls
bacterial,
fungal,
parasitic
cells
viral
particles
perform
their
antipathogenic
activity.
more
reactive
a
high
band
gap,
making
them
effective
than
traditional
medications.
Moreover,
due
some
pathogen’s
resistance
currently
available
medications,
performance
NMs
is
becoming
crucial.
Additionally,
prospective
properties
administration
methods,
eventually
chosen
for
cutting-edge
applications
therapies,
including
drug
diagnostic
tools
antipathogens.
Herein,
characteristics
that
facilitate
identifying
eliminating
pathogens
real-time.
This
mini-review
analyzes
antimicrobial
investigates
mode
action.
We
also
discussed
challenges
need
be
solved
utilization
Bioactive Materials,
Journal Year:
2023,
Volume and Issue:
27, P. 337 - 347
Published: April 19, 2023
The
abnormal
activation
of
epidermal
growth
factor
receptor
(EGFR)
drives
the
development
non-small
cell
lung
cancer
(NSCLC).
EGFR-targeting
tyrosine
kinase
inhibitor
osimertinib
is
frequently
used
to
clinically
treat
NSCLC
and
exhibits
marked
efficacy
in
patients
with
who
have
an
EGFR
mutation.
However,
free
administration
inadequate
response
vivo,
only
∼3%
demonstrating
a
complete
clinical
response.
Consequently,
we
designed
biomimetic
nanoparticle
(CMNP@Osi)
comprising
polymeric
core
tumor
cell-derived
membrane-coated
shell
that
combines
membrane-mediated
homologous
molecular
targeting
for
targeted
drug
delivery,
thereby
supporting
dual-target
strategy
enhancing
efficacy.
After
intravenous
injection,
CMNP@Osi
accumulates
at
sites
displays
enhanced
uptake
into
cells
based
on
targeting.
Osimertinib
subsequently
released
cytoplasm,
where
it
suppresses
phosphorylation
upstream
downstream
AKT
signaling
pathway
inhibits
proliferation
cells.
Thus,
this
dual-targeting
using
nanocarrier
can
enhance
molecular-targeted
delivery
improve
npj Clean Water,
Journal Year:
2024,
Volume and Issue:
7(1)
Published: Nov. 30, 2024
Metal-Organic
Frameworks
(MOFs)
are
versatile
materials
with
tailorable
structures,
high
surface
areas,
and
controlled
pore
sizes,
making
them
ideal
for
gas
storage,
separation,
catalysis,
notably
wastewater
treatment
by
removing
pollutants
like
antibiotics
heavy
metals.
Functionalization
enhances
their
applications
in
energy
conversion
environmental
remediation.
Despite
challenges
stability
cost,
ongoing
innovation
MOFs
contributes
to
the
circular
economy
aligns
Sustainable
Development
Goals.
Scientific Reports,
Journal Year:
2024,
Volume and Issue:
14(1)
Published: Aug. 20, 2024
Glioblastoma
(GBM),
one
of
the
deadliest
brain
tumors,
accounts
for
approximately
50%
all
primary
malignant
CNS
therefore
novel,
highly
effective
remedies
are
urgently
needed.
Boron
neutron
capture
therapy,
which
has
recently
repositioned
as
a
promising
strategy
to
treat
high-grade
gliomas,
requires
conspicuous
accumulation
boron
atoms
in
cancer
cells.
With
aim
selectively
deliver
sodium
borocaptate
(BSH,
12
B
atoms-including
molecule
already
employed
clinics)
GBM
cells,
we
developed
novel
cell
membrane-derived
vesicles
(CMVs),
overcoming
limits
natural
extracellular
drug
carriers,
while
maintaining
their
inherent
homing
abilities
that
make
them
preferable
fully
synthetic
nanocarriers.
Purified
membrane
fragments,
isolated
from
patient-derived
stem-like
cultures,
were
used
prepare
nanosized
CMVs,
retained
some
proteins
specific
parent
cells
and
devoid
potentially
detrimental
genetic
material.
In
vitro
tests
evidenced
targeting
ability
this
nanosystem
ruled
out
any
cytotoxicity.
The
CMVs
successfully
loaded
with
BSH,
by
following
two
different
procedures,
i.e.
sonication
electroporation,
demonstrating
potential
applicability
therapy.
Acta Pharmaceutica Sinica B,
Journal Year:
2022,
Volume and Issue:
13(1), P. 327 - 343
Published: May 13, 2022
Extended
circulation
of
anticancer
nanodrugs
in
blood
stream
is
essential
for
their
clinical
applications.
However,
administered
nanoparticles
are
rapidly
sequestered
and
cleared
by
cells
the
mononuclear
phagocyte
system
(MPS).
In
this
study,
we
developed
a
biomimetic
nanosystem
that
able
to
efficiently
escape
MPS
target
tumor
tissues.
The
fabricated
(TM-CQ/NPs)
were
coated
with
fibroblast
cell
membrane
expressing
necrosis
factor
(TNF)-related
apoptosis
inducing
ligand
(TRAIL).
Coating
functionalized
reduced
endocytosis
macrophages,
but
increased
nanoparticle
uptake
cells.
Importantly,
coating
specifically
induced
via
interaction
TRAIL
its
cognate
death
receptors.
Meanwhile,
encapsulated
chloroquine
(CQ)
further
suppressed
synergized
induce
apoptosis.
vigorous
antitumor
efficacy
two
mice
models
confirmed
our
was
an
effective
approach
address
challenge
cancer
therapy.
Together,
TM-CQ/NPs
provides
feasible
precisely
tissues
improve
efficacy.
Journal of Materials Chemistry B,
Journal Year:
2022,
Volume and Issue:
10(37), P. 7161 - 7172
Published: Jan. 1, 2022
Cell
membrane-coating
nanotechnology
involves
dressing
synthetic
nanoparticles
(NPs)
with
membranes
derived
from
different
types
of
cells
to
endow
the
NPs
properties
a
specific
cell
type
and
further
achieve
precise
effective
disease
treatment.
Of
great
interest
is
fact
that
sourced
sources
can
give
functions
NPs.
In
this
review,
we
comprehensively
lay
out
major
advantages
several
typical
membranes,
which
are
red
blood
(RBCs),
platelets,
neutrophils,
immune
cells,
stem
or
cancer
for
selective
fabrication
novel
nanotherapeutics
their
potential
greatly
advance
development
nanomedicine
improve
curative
effect
treatments.
