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Chaperone therapy update: Fabry disease, GM1-gangliosidosis and Gaucher disease.
[gm1 gangliosidosis]
Chaperone
therapy
is
a
newly
developed
molecular
therapeutic
approach
to
lysosomal
diseases
,
a
group
of
human
genetic
diseases
causing
severe
brain
damage
.
Based
on
early
molecular
studies
during
the
last
decade
of
the
20
th
century
and
early
years
of
the
21
st
century
,
mainly
on
Fabry
disease
and
GM
1
-
gangliosidosis
,
we
found
some
mutant
enzyme
proteins
were
unstable
in
the
cell
,
and
unable
to
express
catalytic
activities
.
Subsequently
galactose
and
other
active-site
binding
substrate
analogs
were
found
stabilized
and
enhance
the
mutant
enzyme
activity
in
culture
cells
.
We
concluded
that
the
mutant
misfolding
enzyme
protein
and
substrate
analog
competitive
inhibitor
(
chemical
chaperone
)
form
a
stable
complex
to
be
transported
to
the
lysosome
,
to
restore
the
catalytic
activity
of
mutant
enzyme
after
spontaneous
dissociation
under
the
acidic
condition
.
This
gene
mutation
-
specific
molecular
interaction
is
a
paradoxical
phenomenon
that
an
enzyme
inhibitor
in
vitro
serves
as
an
enzyme
stabilizer
in
situ
.
First
we
developed
a
commercially
available
compound
1
-
deoxygalactonojirimycin
(
DGJ
)
for
Fabry
disease
,
and
confirmed
the
above
molecular
phenomenon
.
Currently
DGJ
has
become
a
new
candidate
of
oral
medicine
for
Fabry
disease
,
generalized
vasculopathy
involving
the
kidneys
,
heart
and
central
nervous
system
in
the
middle
age
.
This
drug
development
has
reached
the
phase
3
of
human
clinical
study
.
Then
we
found
two
valienamine
derivatives
,
N-
octyl-
4
-
epi-β-valienamine
(
NOEV
)
and
N-
octyl-β-valienamine
(
NOV
)
,
as
promising
therapeutic
agents
for
human
β-galactosidase
deficiency
disorders
(
GM
1
-
gangliosidosis
and
Morquio
B
disease
)
and
β-glucosidase
deficiency
disorders
(
phenotypic
variations
of
Gaucher
disease
)
,
respectively
.
Originally
NOEV
and
NOV
had
been
discovered
as
competitive
inhibitors
,
and
then
their
paradoxical
bioactivities
as
chaperones
were
confirmed
in
cultured
fibroblasts
from
patients
with
these
disorders
.
Subsequently
GM
1
-
gangliosidosis
model
mice
have
been
used
for
confirmation
of
clinical
effectiveness
,
adverse
effects
and
pharmacokinetic
studies
.
Orally
administered
NOEV
entered
the
brain
through
the
blood
-
brain
barrier
,
enhanced
β-galactosidase
activity
,
reduced
substrate
storage
,
and
improved
neurological
deterioration
clinically
.
Computational
analysis
revealed
pH-dependent
enzyme-chaperone
interactions
.
Our
recent
study
indicated
chaperone
activity
of
a
new
DGJ
derivative
,
MTD
118
,
for
β-galactosidase
complementary
to
NOEV
.
NOV
also
showed
the
chaperone
effect
toward
several
β-glucosidase
gene
mutants
in
Gaucher
disease
.
Furthermore
a
commercial
expectorant
drug
ambroxol
was
found
to
be
a
chaperone
for
β-glucosidase
.
A
few
Gaucher
patients
responded
to
this
drug
with
remarkable
improvement
of
oculomotor
dysfunction
and
myoclonus
.
We
hope
chaperone
therapy
will
become
available
for
some
patients
with
Fabry
disease
,
GM
1
-
gangliosidosis
,
Gaucher
disease
,
and
other
lysosomal
storage
diseases
particularly
with
central
nervous
system
involvement
.
Diseases
Validation
Diseases presenting
"β-glucosidase deficiency"
symptom
gm1 gangliosidosis
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