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Beyond Branching: Multiknot Structured Polymer for Gene Delivery.
[dystrophic epidermolysis bullosa]
Polymer-based
transfection
vectors
are
increasingly
becoming
the
preferred
alternative
to
viral
vectors
thanks
to
their
safety
and
ease
of
production
,
but
low
transfection
potency
has
limited
their
application
.
Many
polycationic
vectors
show
high
efficiency
in
vitro
,
but
their
excessive
charge
density
makes
them
toxic
for
in
vivo
applications
.
Herein
,
we
demonstrate
the
synthesis
of
new
and
unique
disulfide-reducible
polymeric
gene
nanocarriers
that
exhibit
significantly
enhanced
transfection
potency
and
low
cytotoxicity
,
particularly
in
skin
cells
,
surpassing
the
efficiency
of
the
well-known
transfection
reagents
polyethylenimine
(
PEI
)
and
Lipofectamine
2000
.
The
unique
three
-dimensional
(
3
D
)
"
multiknot
"
vectors
were
synthesized
from
in
situ
deactivation
enhanced
atom
transfer
radical
(
co
)
polymerization
(
DE
-ATRP
)
of
multivinyl
monomers
(
MVMs
)
.
The
high
transfection
levels
and
low
toxicity
of
this
multiknot
structured
polymer
in
vitro
,
combined
with
its
ability
to
mediate
collagen
VII
expression
in
3
D
skin
equivalents
made
from
cells
of
recessive
dystrophic
epidermolysis
bullosa
patients
,
demonstrates
its
use
as
a
platform
nanotechnology
which
should
be
investigated
further
for
dermatological
disease
therapies
.
Our
findings
suggest
that
the
marked
improvements
stem
from
the
dense
multiknot
architecture
and
degradable
property
,
which
facilitate
both
the
binding
and
releasing
process
of
the
plasmid
DNA
.
Diseases
Validation
Diseases presenting
"but their excessive charge density makes them toxic for in vivo applications"
symptom
dystrophic epidermolysis bullosa
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