Philosophical Transactions of the Royal Society B Biological Sciences,
Год журнала:
2013,
Номер
369(1633), С. 20130144 - 20130144
Опубликована: Дек. 3, 2013
The
microtubule-associated
protein
tau
is
a
principal
component
of
neurofibrillary
tangles,
and
has
been
identified
as
key
molecule
in
Alzheimer's
disease
other
tauopathies.
However,
it
unknown
how
that
primarily
located
axons
involved
believed
to
have
synaptic
origin.
To
investigate
possible
function
tau,
we
studied
plasticity
the
hippocampus
found
selective
deficit
long-term
depression
(LTD)
knockout
mice
vivo
vitro,
an
effect
was
replicated
by
RNAi
knockdown
vitro.
We
induction
LTD
associated
with
glycogen
synthase
kinase-3-mediated
phosphorylation
tau.
These
observations
demonstrate
critical
physiological
LTD.
Journal of Neuroscience,
Год журнала:
2014,
Номер
34(49), С. 16180 - 16193
Опубликована: Дек. 3, 2014
Traumatic
brain
injury
(TBI)
is
an
established
risk
factor
for
the
early
development
of
dementia,
including
Alzheimer's
disease,
and
post-traumatic
frequently
exhibits
neurofibrillary
tangles
comprised
aggregates
protein
tau.
We
have
recently
defined
a
brain-wide
network
paravascular
channels,
termed
"glymphatic"
pathway,
along
which
CSF
moves
into
through
parenchyma,
facilitating
clearance
interstitial
solutes,
amyloid-β,
from
brain.
Here
we
demonstrate
in
mice
that
extracellular
tau
cleared
these
pathways.
After
TBI,
glymphatic
pathway
function
was
reduced
by
∼60%,
with
this
impairment
persisting
at
least
1
month
post
injury.
Genetic
knock-out
gene
encoding
astroglial
water
channel
aquaporin-4,
importantly
involved
solute
clearance,
exacerbated
dysfunction
after
TBI
promoted
pathology
neurodegeneration
These
findings
suggest
chronic
may
be
key
renders
vulnerable
to
aggregation
onset
neurodegeneration.
Cold Spring Harbor Perspectives in Medicine,
Год журнала:
2012,
Номер
2(7), С. a006338 - a006338
Опубликована: Март 13, 2012
Lennart
Mucke1
and
Dennis
J.
Selkoe2
Gladstone
Institute
of
Neurological
Disease
University
California,
San
Francisco,
California
94102
Center
for
Neurologic
Diseases,
Harvard
Medical
School
Brigham
Women's
Hospital,
Boston,
Massachusetts
02115
Correspondence:
lmucke{at}gladstone.ucsf.edu,
dselkoe{at}rics.bwh.harvard.edu
Acta Neuropathologica,
Год журнала:
2017,
Номер
133(5), С. 665 - 704
Опубликована: Апрель 6, 2017
Tau
is
well
established
as
a
microtubule-associated
protein
in
neurons.
However,
under
pathological
conditions,
aberrant
assembly
of
tau
into
insoluble
aggregates
accompanied
by
synaptic
dysfunction
and
neural
cell
death
range
neurodegenerative
disorders,
collectively
referred
to
tauopathies.
Recent
advances
our
understanding
the
multiple
functions
different
locations
inside
outside
neurons
have
revealed
novel
insights
its
importance
diverse
molecular
pathways
including
signalling,
plasticity,
regulation
genomic
stability.
The
present
review
describes
physiological
pathophysiological
properties
how
these
relate
distribution
We
highlight
post-translational
modifications
tau,
which
are
pivotal
defining
modulating
localisation
roles
health
disease.
include
discussion
other
pathologically
relevant
changes
mutation
aggregation,
aspects
impinge
on
propensity
propagate,
potentially
drive
neuronal
loss,
diseased
brain.
Finally,
we
describe
cascade
events
that
may
be
driven
dysfunction,
impaired
axonal
transport,
alterations
synapse
mitochondrial
function,
activation
unfolded
response
defective
degradation.
It
important
fully
understand
attributed
since
this
will
provide
vital
information
involvement
development
pathogenesis
Such
knowledge
enable
determination
critical
should
targeted
potential
therapeutic
agents
developed
for
treatment
Cold Spring Harbor Perspectives in Medicine,
Год журнала:
2012,
Номер
2(7), С. a006247 - a006247
Опубликована: Март 20, 2012
Tau
represents
the
subunit
protein
of
one
major
hallmarks
Alzheimer
disease
(AD),
neurofibrillary
tangles,
and
is
therefore
interest
as
an
indicator
mechanisms.
Many
unusual
properties
can
be
explained
by
its
nature
a
natively
unfolded
protein.
Examples
are
large
number
structural
conformations
biochemical
modifications
(phosphorylation,
proteolysis,
glycosylation,
others),
multitude
interaction
partners
(mainly
microtubules,
but
also
other
cytoskeletal
proteins,
kinases,
phosphatases,
motor
chaperones,
membrane
proteins).
The
pathological
aggregation
counterintuitive,
given
high
solubility,
rationalized
short
hydrophobic
motifs
forming
β
structures.
toxic
in
cell
animal
models,
reversed
suppressing
expression
or
inhibitors.
This
review
summarizes
some
structural,
biochemical,
biological
fibers.
Further
aspects
diagnostic
marker
therapeutic
target,
involvement
Tau-based
diseases,
histopathology
covered
chapters
this
volume.
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.
Proceedings of the National Academy of Sciences,
Год журнала:
2013,
Номер
110(27)
Опубликована: Июнь 17, 2013
Significance
Communication
between
nerve
cells
occurs
at
specialized
cellular
structures
known
as
synapses.
Loss
of
synaptic
function
is
associated
with
cognitive
decline
in
Alzheimer’s
disease
(AD).
However,
the
mechanism
damage
remains
incompletely
understood.
Here
we
describe
a
pathway
for
whereby
amyloid-β
1–42
peptide
(Aβ
)
releases,
via
stimulation
α7
nicotinic
receptors,
excessive
amounts
glutamate
from
astrocytes,
turn
activating
extrasynaptic
NMDA-type
receptors
(eNMDARs)
to
mediate
damage.
The
Food
and
Drug
Administration-approved
drug
memantine
offers
some
beneficial
effect,
but
improved
eNMDAR
antagonist
NitroMemantine
completely
ameliorates
Aβ-induced
loss,
providing
hope
disease-modifying
intervention
AD.
