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Tissue engineering of tumor stromal microenvironment with application to cancer cell invasion.
[dystrophic epidermolysis bullosa]
3
D
organotypic
cultures
of
epithelial
cells
on
a
matrix
embedded
with
mesenchymal
cells
are
widely
used
to
study
epithelial
cell
differentiation
and
invasion
.
Rat
tail
type
I
collagen
and
/
or
matrix
derived
from
Engelbreth-
Holm
-
Swarm
mouse
sarcoma
cells
have
been
traditionally
employed
as
the
substrates
to
model
the
matrix
or
stromal
microenvironment
into
which
mesenchymal
cells
(
usually
fibroblasts
)
are
populated
.
Although
experiments
using
such
matrices
are
very
informative
,
it
can
be
argued
that
due
to
an
overriding
presence
of
a
single
protein
(
such
as
in
type
I
Collagen
)
or
a
high
content
of
basement
membrane
components
and
growth
factors
(
such
as
in
matrix
derived
from
mouse
sarcoma
cells
)
,
these
substrates
do
not
best
reflect
the
contribution
to
matrix
composition
made
by
the
stromal
cells
themselves
.
To
study
native
matrices
produced
by
primary
dermal
fibroblasts
isolated
from
patients
with
a
tumor
prone
,
genetic
blistering
disorder
(
recessive
dystrophic
epidermolysis
bullosa
)
,
we
have
adapted
an
existing
native
matrix
protocol
to
study
tumor
cell
invasion
.
Fibroblasts
are
induced
to
produce
their
own
matrix
over
a
prolonged
period
in
culture
.
This
native
matrix
is
then
detached
from
the
culture
dish
and
epithelial
cells
are
seeded
onto
it
before
the
entire
coculture
is
raised
to
the
air-liquid
interface
.
Cellular
differentiation
and
/
or
invasion
can
then
be
assessed
over
time
.
This
technique
provides
the
ability
to
assess
epithelial-mesenchymal
cell
interactions
in
a
3
D
setting
without
the
need
for
a
synthetic
or
foreign
matrix
with
the
only
disadvantage
being
the
prolonged
period
of
time
required
to
produce
the
native
matrix
.
Here
we
describe
the
application
of
this
technique
to
assess
the
ability
of
a
single
molecule
expressed
by
fibroblasts
,
type
VII
collagen
,
to
inhibit
tumor
cell
invasion
.
Diseases
Validation
Diseases presenting
"their own matrix over a prolonged period in culture"
symptom
dystrophic epidermolysis bullosa
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