Neuroscience & Biobehavioral Reviews,
Год журнала:
2023,
Номер
155, С. 105475 - 105475
Опубликована: Ноя. 22, 2023
The
brain
is
a
remarkably
complex
organ
responsible
for
wide
range
of
functions,
including
the
modulation
emotional
states
and
movement.
Neuronal
circuits
are
believed
to
play
crucial
role
in
integrating
sensory,
cognitive,
information
ultimately
guide
motor
behavior.
Over
years,
numerous
studies
employing
diverse
techniques
such
as
electrophysiology,
imaging,
optogenetics
have
revealed
network
neural
involved
regulation
or
processes.
Emotions
can
exert
substantial
influence
on
performance,
encompassing
both
everyday
activities
pathological
conditions.
aim
this
review
explore
how
shape
movements
by
connecting
processing
circuits.
We
first
provide
comprehensive
overview
impact
different
control
humans
rodents.
In
line
with
behavioral
studies,
we
set
out
identify
emotion-related
structures
capable
modulating
output,
behaviorally
anatomically.
extensively
connected
system.
These
drive
behavior,
essential
survival,
but
also
continuously
ongoing
summary,
investigation
intricate
relationship
between
emotion
movement
offers
valuable
insights
into
human
opportunities
enhance
holds
promise
improving
mental
physical
health.
This
integrates
findings
from
multiple
scientific
approaches,
anatomical
tracing,
circuit-based
dissection,
conducted
animal
subjects.
By
incorporating
these
methodologies,
present
current
understanding
physiological
Annual Review of Neuroscience,
Год журнала:
2022,
Номер
45(1), С. 63 - 85
Опубликована: Янв. 5, 2022
Locomotion
is
a
universal
motor
behavior
that
expressed
as
the
output
of
many
integrated
brain
functions.
organized
at
several
levels
nervous
system,
with
brainstem
circuits
acting
gate
between
areas
regulating
innate,
emotional,
or
motivational
locomotion
and
executive
spinal
circuits.
Here
we
review
recent
advances
on
involved
in
controlling
locomotion.
We
describe
how
delineated
command
govern
start,
speed,
stop,
steering
also
discuss
these
pathways
interface
cord
diverse
important
for
context-specific
selection
A
recurrent
theme
need
to
establish
functional
connectome
from
Finally,
point
unresolved
issues
concerning
function
locomotor
control.
Nature Neuroscience,
Год журнала:
2024,
Номер
27(4), С. 716 - 727
Опубликована: Фев. 12, 2024
Abstract
The
basal
ganglia
are
essential
for
executing
motor
actions.
How
the
engage
spinal
networks
has
remained
elusive.
Medullary
Chx10
gigantocellular
(Gi)
neurons
required
turning
gait
programs,
suggesting
that
gaits
organized
by
executed
via
this
descending
pathway.
Performing
deep
brainstem
recordings
of
Gi
Ca
2+
activity
in
adult
mice,
we
show
striatal
projection
initiate
a
dominant
crossed
pathway
to
on
contralateral
side.
Using
intersectional
viral
tracing
and
cell-type-specific
modulation,
uncover
principal
ganglia–spinal
cord
locomotor
asymmetries
mice:
→
pontine
reticular
nucleus,
oral
part
(PnO)
cord.
Modulating
restricted
PnO
restores
competence
upon
damage,
dysfunction
may
contribute
debilitating
deficits
observed
Parkinson’s
disease.
Our
results
reveal
stratified
circuit
architecture
underlying
critical
program.
Trends in Pharmacological Sciences,
Год журнала:
2022,
Номер
43(12), С. 1098 - 1112
Опубликована: Окт. 20, 2022
Modern
interest
in
muscarinic
acetylcholine
receptor
(mAChR)
activators
for
schizophrenia
began
the
1990s
when
xanomeline,
an
M1/M4-preferring
mAChR
agonist
developed
cognitive
symptoms
of
Alzheimer's
disease
(AD),
had
unexpected
antipsychotic
activity.
However,
strategies
to
address
tolerability
concerns
associated
with
activation
peripheral
mAChRs
were
not
available
at
that
time.
The
discovery
specific
targeted
ligands
and
combination
treatments
reduce
engagement
have
advanced
potential
as
effective
psychotic
disorders.
This
review
provides
perspectives
on
background
identification
antipsychotics,
advances
preclinical
understanding
targets,
current
state
under
active
clinical
development
schizophrenia.
Proceedings of the National Academy of Sciences,
Год журнала:
2021,
Номер
118(43)
Опубликована: Окт. 20, 2021
In
Parkinson's
disease
(PD),
the
loss
of
midbrain
dopaminergic
cells
results
in
severe
locomotor
deficits,
such
as
gait
freezing
and
akinesia.
Growing
evidence
indicates
that
these
deficits
can
be
attributed
to
decreased
activity
mesencephalic
region
(MLR),
a
brainstem
controlling
locomotion.
Clinicians
are
exploring
deep
brain
stimulation
MLR
treatment
option
improve
function.
The
variable,
from
modest
promising.
However,
within
MLR,
clinicians
have
targeted
pedunculopontine
nucleus
exclusively,
while
leaving
cuneiform
unexplored.
To
our
knowledge,
effects
never
been
determined
parkinsonian
conditions
any
animal
model.
Here,
we
addressed
this
issue
mouse
model
PD,
based
on
bilateral
striatal
injection
6-hydroxydopamine,
which
damaged
nigrostriatal
pathway
activity.
We
show
selective
optogenetic
glutamatergic
neurons
mice
expressing
channelrhodopsin
Cre-dependent
manner
Vglut2-positive
(Vglut2-ChR2-EYFP
mice)
increased
number
initiations,
time
spent
locomotion,
controlled
speed.
Using
learning-based
movement
analysis,
found
limb
kinematics
optogenetic-evoked
locomotion
pathological
were
largely
similar
those
recorded
intact
animals.
Our
work
identifies
potentially
clinically
relevant
target
conditions.
study
should
open
avenues
develop
using
stimulation,
pharmacotherapy,
or
optogenetics.
Nature Communications,
Год журнала:
2022,
Номер
13(1)
Опубликована: Янв. 26, 2022
Abstract
The
pedunculopontine
nucleus
(PPN)
is
a
locomotor
command
area
containing
glutamatergic
neurons
that
control
initiation
and
maintenance.
These
motor
actions
are
deficient
in
Parkinson’s
disease
(PD),
where
dopaminergic
neurodegeneration
alters
basal
ganglia
activity.
Being
downstream
of
the
ganglia,
PPN
may
be
suitable
target
for
ameliorating
parkinsonian
symptoms.
Here,
we
use
vivo
cell-type
specific
activation
to
restore
function
two
mouse
models
parkinsonism
made
by
acute
pharmacological
blockage
dopamine
transmission.
With
combination
chemo-
opto-genetics,
show
excitation
caudal
can
normalize
otherwise
severe
deficit
PD,
whereas
targeting
local
GABAergic
population
only
leads
recovery
slow
locomotion.
rescue
driven
independent
activity
nearby
promoting
Cuneiform
neurons.
Our
observations
point
as
potential
neuromodulatory
restoration
PD.
Nature Neuroscience,
Год журнала:
2023,
Номер
26(9), С. 1516 - 1528
Опубликована: Июль 27, 2023
Abstract
Arrest
of
ongoing
movements
is
an
integral
part
executing
motor
programs.
Behavioral
arrest
may
happen
upon
termination
a
variety
goal-directed
or
as
global
either
in
the
context
fear
response
to
salient
environmental
cues.
The
neuronal
circuits
that
bridge
with
executive
implement
are
poorly
understood.
We
report
discovery
activation
glutamatergic
Chx10-derived
neurons
pedunculopontine
nucleus
(PPN)
mice
arrests
all
while
simultaneously
causing
apnea
and
bradycardia.
This
has
pause-and-play
pattern
instantaneous
interruption
movement
followed
by
short-latency
continuation
from
where
it
was
paused.
Mice
naturally
perform
bouts
same
combination
autonomic
features.
Chx10-PPN-evoked
different
ventrolateral
periaqueductal
gray-induced
freezing.
Our
study
defines
command
induces
arrest,
which
be
recruited
cues
allow
for
preparatory
arousal
state,
identifies
locomotor-opposing
role
rostrally
biased
PPN.
Frontiers in Neural Circuits,
Год журнала:
2022,
Номер
16
Опубликована: Май 9, 2022
The
mesencephalic
locomotor
region
(MLR)
was
discovered
several
decades
ago
in
the
cat.
It
functionally
defined
based
on
ability
of
low
threshold
electrical
stimuli
within
a
comprising
cuneiform
and
pedunculopontine
nucleus
to
evoke
locomotion.
Since
then,
similar
regions
have
been
found
diverse
vertebrate
species,
including
lamprey,
skate,
rodent,
pig,
monkey,
human.
MLR,
while
often
viewed
under
lens
locomotion,
is
involved
processes
involving
autonomic
nervous
system,
respiratory
state-dependent
activation
motor
systems.
This
review
will
discuss
that
comprises
MLR
examine
their
respective
connectomes
from
both
an
anatomical
functional
angle.
From
perspective,
primes
cardiovascular
systems
before
activity
occurs.
Inputs
variety
higher
structures,
direct
outputs
monoaminergic
nuclei,
allow
be
able
respond
appropriately
These
effects
are
roughly
divided
into
escape
exploratory
behavior,
also
can
reinforce
selection
these
behaviors
through
projections
adjacent
structures
such
as
periaqueductal
gray
or
limbic
cortical
regions.
Findings
rat,
mouse,
cat
discussed
highlight
similarities
differences
among
species.
Frontiers in Neural Circuits,
Год журнала:
2023,
Номер
17
Опубликована: Фев. 28, 2023
The
pedunculopontine
nucleus
(PPN)
is
the
major
part
of
mesencephalic
locomotor
region,
involved
in
control
gait
and
locomotion.
PPN
contains
glutamatergic,
cholinergic,
GABAergic
neurons
that
all
make
local
connections,
but
also
have
long-range
ascending
descending
connections.
While
initially
thought
as
a
region
only
locomotion,
recent
evidence
showing
this
structure
participates
decision-making
to
initiate
movement.
Clinically,
has
been
used
target
for
deep
brain
stimulation
manage
freezing
late
Parkinson’s
disease.
In
review,
we
will
discuss
current
thinking
on
role
control.
We
focus
cytoarchitecture
functional
connectivity
relationship
motor
