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Protein therapeutics for junctional epidermolysis bullosa: incorporation of recombinant beta3 chain into laminin 332 in beta3-/- keratinocytes in vitro.
[junctional epidermolysis bullosa]
Junctional
epidermolysis
bullosa
(
JEB
)
is
an
inherited
mechanobullous
disease
characterized
by
reduced
adherence
of
the
epidermal
keratinocytes
to
the
underlying
dermis
,
and
is
often
caused
by
the
absence
of
functional
laminin
332
due
to
the
lack
or
dysfunction
of
its
beta
3
chain
.
As
there
are
no
specific
therapies
for
JEB
,
we
tested
whether
a
protein
replacement
strategy
could
be
applicable
for
the
restoration
of
the
laminin
332
assembly
and
reversion
of
the
JEB
phenotype
in
human
keratinocytes
that
lack
beta
3
subunit
.
Here
,
we
developed
the
protocol
for
production
and
purification
of
the
biologically
active
recombinant
beta
3
chain
.
Next
,
we
demonstrated
that
delivery
of
recombinant
beta
3
polypeptide
into
the
endoplasmic
reticulum
of
the
immortalized
beta
3
-
null
keratinocytes
led
to
the
restoration
of
the
laminin
332
assembly
,
secretion
,
and
deposition
into
the
basement
membrane
zone
,
as
confirmed
by
Western
blot
analysis
,
confocal
immunofluorescent
microscopy
in
vitro
,
and
on
cultured
organotypic
human
JEB
skin
reconstructs
.
Although
the
amount
of
laminin
332
produced
by
protein-treated
beta
3
-
null
keratinocytes
is
lower
than
that
in
normal
human
keratinocytes
,
our
results
demonstrate
the
applicability
of
the
recombinant
proteins
for
JEB
treatment
and
open
new
perspectives
for
the
development
of
novel
therapeutics
for
this
inherited
,
currently
intractable
,
skin
disorder
.
Diseases
Validation
Diseases presenting
"inherited mechanobullous disease characterized by reduced adherence of the epidermal keratinocytes"
symptom
junctional epidermolysis bullosa
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