Rare Diseases Symptoms Automatic Extraction
Home
A random Abstract
Our Project
Our Team
Rough endoplasmic reticulum trafficking errors by different classes of mutant dentin sialophosphoprotein (DSPP) cause dominant negative effects in both dentinogenesis imperfecta and dentin dysplasia by entrapping normal DSPP.
[dentin dysplasia]
Families
with
nonsyndromic
dentinogenesis
imperfecta
(
DGI
)
and
the
milder
,
dentin
dysplasia
(
DD
)
,
have
mutations
in
one
allele
of
the
dentin
sialophosphoprotein
(
DSPP
)
gene
.
Because
loss
of
a
single
Dspp
allele
in
mice
(
and
likely
,
humans
)
causes
no
dental
phenotype
,
the
mechanism
(
s
)
underling
the
dominant
negative
effects
were
investigated
.
DSPP
mutations
occur
in
three
classes
.
(
The
first
class
,
the
mid-
leader
missense
mutation
,
Y
6
D
,
was
not
investigated
in
this
report
.
)
All
other
5
′
mutations
of
DSPP
result
in
changes
/
loss
in
the
first
three
amino
acids
(
isoleucine-proline-valine
[
IPV
]
)
of
mature
DSPP
or
,
for
the
A
15
V
missense
mutation
,
some
retention
of
the
hydrophobic
leader
sequence
.
All
of
this
second
class
of
mutations
caused
mutant
DSPP
to
be
retained
in
the
rough
endoplasmic
reticulum
(
rER
)
of
transfected
HEK
293
cells
.
Trafficking
out
of
the
rER
by
coexpressed
normal
DSPP
was
reduced
in
a
dose-responsive
manner
,
probably
due
to
formation
of
Ca
2
+
-
dependent
complexes
with
the
retained
mutant
DSPP
.
IPV-like
sequences
begin
many
secreted
Ca
2
+
-
binding
proteins
,
and
changing
the
third
amino
acid
to
the
charged
aspartate
(
D
)
in
three
other
acidic
proteins
also
caused
increased
rER
accumulation
.
Both
the
leader
-retaining
A
15
V
and
the
long
string
of
hydrophobic
amino
acids
resulting
from
all
known
frameshift
mutations
within
the
3
′
-
encoded
Ca
2
+
-
binding
repeat
domain
(
third
class
of
mutations
)
caused
retention
by
association
of
the
mutant
proteins
with
rER
membranes
.
More
5
′
frameshift
mutations
result
in
longer
mutant
hydrophobic
domains
,
but
the
milder
phenotype
,
DD
,
probably
due
to
lower
effectiveness
of
the
remaining
,
shorter
Ca
2
+
-
binding
domain
in
capturing
normal
DSPP
protein
within
the
rER
.
This
study
presents
evidence
of
a
shared
underlying
mechanism
of
capturing
of
normal
DSPP
by
two
different
classes
of
DSPP
mutations
and
offers
an
explanation
for
the
mild
(
DD-
II
)
versus
severe
(
DGI
-
II
and
III
)
nonsyndromic
dentin
phenotypes
.
Evidence
is
also
presented
that
many
acidic
,
Ca
2
+
-
binding
proteins
may
use
the
same
IPV-like
receptor
/
pathway
for
exiting
the
rER
.
Diseases
Validation
Diseases presenting
"the mid-leader missense mutation"
symptom
dentin dysplasia
dentinogenesis imperfecta
You can validate or delete this automatically detected symptom
Validate the Symptom
Delete the Symptom