Abstract
Alzheimer’s
disease
(AD)
is
one
of
the
most
prevalent
neurodegenerative
diseases,
yet
current
therapeutic
treatments
are
inadequate
due
to
a
complex
pathogenesis.
The
plant
polyphenol
apigenin
has
been
shown
have
anti-inflammatory
and
neuroprotective
properties
in
number
cell
animal
models;
however
comprehensive
assessment
not
performed
human
model
AD.
Here
we
used
induced
pluripotent
stem
(iPSC)
familial
sporadic
AD,
addition
healthy
controls,
assess
activity
apigenin.
iPSC-derived
AD
neurons
demonstrated
hyper-excitable
calcium
signalling
phenotype,
elevated
levels
nitrite,
increased
cytotoxicity
apoptosis,
reduced
neurite
length
susceptibility
inflammatory
stress
challenge
from
activated
murine
microglia,
comparison
control
neurons.
We
identified
that
potent
with
ability
protect
neurites
viability
by
promoting
global
down-regulation
cytokine
nitric
oxide
(NO)
release
cells.
In
addition,
show
able
via
multiple
means
reducing
frequency
spontaneous
Ca
2+
signals
significantly
caspase-3/7
mediated
apoptosis.
These
data
demonstrate
broad
action
against
pathogenesis
model.
Cold Spring Harbor Perspectives in Medicine,
Год журнала:
2012,
Номер
2(5), С. a006270 - a006270
Опубликована: Фев. 7, 2012
Christian
Haass1,
Christoph
Kaether2,
Gopal
Thinakaran3
and
Sangram
Sisodia3
DZNE—German
Center
for
Neurodegenerative
Diseases,
80336
Munich,
Germany;
Adolf
Butenandt-Institute,
Biochemistry,
Ludwig-Maximilians
University,
Germany
Leibniz
Institut
für
Altersforschung,
D-07745
Jena,
Department
of
Neurobiology,
University
Chicago,
Illinois
60637
Correspondence:
christian.haass{at}dzne.lmu.de;
ssisodia{at}bsd.uchicago.edu
Cold Spring Harbor Perspectives in Biology,
Год журнала:
2016,
Номер
8(9), С. a022061 - a022061
Опубликована: Июль 22, 2016
Akiko
Hata1
and
Ye-Guang
Chen2
1Cardiovascular
Research
Institute,
University
of
California,
San
Francisco,
California
94143
2The
State
Key
Laboratory
Membrane
Biology,
Tsinghua-Peking
Center
for
Life
Sciences,
School
Tsinghua
University,
Beijing
100084,
China
Correspondence:
akiko.hata{at}ucsf.edu;
ygchen{at}tsinghua.edu.cn
EBioMedicine,
Год журнала:
2016,
Номер
6, С. 42 - 49
Опубликована: Апрель 1, 2016
The
incidence
of
Alzheimer's
disease
(AD)
is
growing
every
day
and
finding
an
effective
treatment
becoming
more
vital.
Amyloid-β
(Aβ)
has
been
the
focus
research
for
several
decades.
recent
shift
in
Aβ
cascade
hypothesis
from
all
to
small
soluble
oligomeric
intermediates
directing
search
therapeutics
towards
toxic
mediators
disease.
Targeting
most
oligomers
may
prove
be
by
preventing
their
spread.
Specific
targeting
shown
protect
cognition
rodent
models.
Additionally,
heterogeneity
on
seem
contradictory
until
size
conformation
are
taken
into
account.
In
this
review,
we
will
discuss
toxicity
relation
as
well
influence
inflammation
potential
oligomer
immunotherapy.
Biomolecules,
Год журнала:
2016,
Номер
6(1), С. 6 - 6
Опубликована: Янв. 6, 2016
Abnormal
deposition
of
misprocessed
and
aggregated
proteins
is
a
common
final
pathway
most
neurodegenerative
diseases,
including
Alzheimer’s
disease
(AD).
AD
characterized
by
the
extraneuronal
amyloid
β
(Aβ)
protein
in
form
plaques
intraneuronal
aggregation
microtubule-associated
tau
filaments.
Based
on
biochemically
diverse
range
pathological
proteins,
number
approaches
have
been
proposed
to
develop
new
potential
therapeutics.
Here
we
discuss
some
promising
ones:
inhibition
phosphorylation,
proteolysis
aggregation,
promotion
intra-
extracellular
clearance,
stabilization
microtubules.
We
also
emphasize
need
achieve
full
understanding
biological
roles
post-translational
modifications
normal
tau,
as
well
molecular
events
responsible
for
selective
neuronal
vulnerability
pathology
its
propagation.
It
concluded
that
answering
key
questions
relationship
between
Aβ
should
lead
better
nature
secondary
tauopathies,
especially
AD,
open
therapeutic
targets
strategies.
Human
γ-secretase
is
an
intra-membrane
protease
that
cleaves
many
different
substrates.
Aberrant
cleavage
of
Notch
implicated
in
cancer,
while
abnormalities
cutting
amyloid
precursor
protein
lead
to
Alzheimer's
disease.
Our
previous
cryo-EM
structure
revealed
considerable
disorder
its
catalytic
subunit
presenilin.
Here,
we
describe
image
classification
procedure
characterizes
molecular
plasticity
at
the
secondary
level,
and
apply
this
method
identify
three
distinct
conformations
our
sample.
In
one
these
conformations,
additional
transmembrane
helix
visible
cannot
be
attributed
known
components
γ-secretase.
addition,
present
a
complex
with
dipeptidic
inhibitor
N-[N-(3,5-difluorophenacetyl)-L-alanyl]-S-phenylglycine
t-butyl
ester
(DAPT).
results
reveal
how
conformational
mobility
second
sixth
helices
presenilin
greatly
reduced
upon
binding
DAPT
or
helix,
form
basis
for
new
model
substrate
enters
domain.
Progress in Neurobiology,
Год журнала:
2013,
Номер
108, С. 21 - 43
Опубликована: Июль 11, 2013
Alzheimer's
disease
(AD)
is
an
age-related
devastating
neurodegenerative
disorder,
which
severely
impacts
on
the
global
economic
development
and
healthcare
system.
Though
AD
has
been
studied
for
more
than
100
years
since
1906,
exact
cause(s)
pathogenic
mechanism(s)
remain
to
be
clarified.
Also,
efficient
disease-modifying
treatment
ideal
diagnostic
method
are
unavailable.
Perturbed
cerebral
glucose
metabolism,
invariant
pathophysiological
feature
of
AD,
may
a
critical
contributor
pathogenesis
this
disease.
In
review,
we
firstly
discussed
features
metabolism
in
physiological
pathological
conditions.
Then,
further
reviewed
contribution
transportation
abnormality
intracellular
catabolism
dysfunction
pathophysiology,
proposed
hypothesis
that
multiple
cascades
induced
by
impaired
could
result
neuronal
degeneration
consequently
cognitive
deficits
patients.
Among
these
processes,
altered
functional
status
thiamine
brain
insulin
resistance
highly
emphasized
characterized
as
major
mechanisms.
Finally,
considering
fact
patients
exhibit
hypometabolism
possibly
due
impairments
signaling
also
discuss
some
potential
possibilities
uncover
biomarkers
from
abnormal
develop
drugs
targeting
at
repairing
impairment
correcting
abnormality.
We
conclude
plays
role
alterations
through
induction
factors
such
oxidative
stress,
mitochondrial
dysfunction,
so
forth.
To
clarify
causes,
pathogeneses
consequences
will
help
break
bottleneck
current
study
finding
biomarker
therapy.
Chemical Reviews,
Год журнала:
2021,
Номер
121(4), С. 2545 - 2647
Опубликована: Фев. 5, 2021
Protein
misfolding
and
aggregation
is
observed
in
many
amyloidogenic
diseases
affecting
either
the
central
nervous
system
or
a
variety
of
peripheral
tissues.
Structural
dynamic
characterization
all
species
along
pathways
from
monomers
to
fibrils
challenging
by
experimental
computational
means
because
they
involve
intrinsically
disordered
proteins
most
diseases.
Yet
understanding
how
amyloid
become
toxic
challenge
developing
treatment
for
these
Here
we
review
what
computer,
vitro,
vivo,
pharmacological
experiments
tell
us
about
accumulation
deposition
oligomers
(Aβ,
tau),
α-synuclein,
IAPP,
superoxide
dismutase
1
proteins,
which
have
been
mainstream
concept
underlying
Alzheimer's
disease
(AD),
Parkinson's
(PD),
type
II
diabetes
(T2D),
amyotrophic
lateral
sclerosis
(ALS)
research,
respectively,
years.
