Rare Diseases Symptoms Automatic Extraction
Home
A random Abstract
Our Project
Our Team
Fluorous iminoalditols act as effective pharmacological chaperones against gene products from GLBâ‚ alleles causing GM1-gangliosidosis and Morquio B disease.
[gm1 gangliosidosis]
Unlike
replacement
therapy
by
infusion
of
exogenous
recombinant
lysosomal
enzymes
,
pharmacological
chaperones
aim
at
a
gain
of
function
of
endogenous
gene
products
.
Deficits
resulting
from
missense
mutations
may
become
treatable
by
small
,
competitive
inhibitors
binding
to
the
catalytical
site
and
thus
correcting
the
erroneous
conformation
of
mutant
enzymes
.
This
may
prevent
their
premature
degradation
and
normalize
intracellular
trafficking
as
well
as
biological
half
-life
.
A
major
limitation
currently
arises
from
the
huge
number
of
individual
missense
mutations
and
the
lack
of
knowledge
on
the
structural
requirements
for
specific
interaction
with
mutant
protein
domains
.
Our
previous
work
on
mutations
of
the
β-galactosidase
(
β-gal
)
gene
,
causing
GM
1
gangliosidosis
(
GM
1
)
and
Morquio
B
disease
(
MBD
)
,
respectively
,
characterized
clinical
phenotypes
as
well
as
biosynthesis
,
intracellular
transport
and
subcellular
localization
of
mutants
.
We
recently
identified
an
effective
chaperone
,
DL-HexDGJ
(
Methyl
6
-
{
[
N
(
2
)
-
(
dansyl
)
-
N
(
6
)
-
(
1
,
5
-
dideoxy-
D-
galactitol-
1
,
5
-
diyl
)
-
L-
lysyl
]
amino
}
hexanoate
)
,
among
a
series
of
N-
modified
1
-
deoxygalactonojirimycin
derivatives
carrying
a
dansyl
group
in
its
N-
acyl
moiety
.
Using
novel
and
flexible
synthetic
routes
,
we
now
report
on
the
effects
of
two
oligofluoroalkyl-derivatives
of
1
-
deoxygalactonojirimycin
,
Ph
(
TFM
)
(
2
)
OHex-DGJ
(
N-
(
α
,
α-
di
-trifluoromethyl
)
benzyloxyhexyl-
1
,
5
-
dideoxy-
1
,
5
-
imino-
D
:
-
galactitol
)
and
(
TFM
)
(
3
)
OHex-DGJ
(
N-
(
Nonafluoro-tert-butyloxy
)
hexyl-
1
,
5
-
dideoxy-
1
,
5
-
imino-
D
:
-
galactitol
)
on
the
β-gal
activity
of
GM
1
and
MBD
fibroblasts
.
Both
compounds
are
competitive
inhibitors
and
increase
the
residual
enzyme
activities
up
to
tenfold
over
base
line
activity
in
GM
1
fibroblasts
with
chaperone-sensitive
mutations
.
Western
blots
showed
that
this
was
due
to
a
normalization
of
protein
transport
and
intralysosomal
maturation
.
The
fact
that
the
novel
compounds
were
effective
at
very
low
concentrations
(
0
.
5
-
10
μM
)
in
the
cell
culture
medium
as
well
as
their
novel
chemical
character
suggest
future
testing
in
animal
models
.
This
may
contribute
to
new
aspects
for
efficient
and
personalized
small
molecule
treatment
of
lysosomal
storage
diseases
.
Diseases
Validation
Diseases presenting
"the lack of knowledge on the structural requirements for specific interaction with mutant protein domains"
symptom
gm1 gangliosidosis
You can validate or delete this automatically detected symptom
Validate the Symptom
Delete the Symptom