bioRxiv (Cold Spring Harbor Laboratory),
Journal Year:
2023,
Volume and Issue:
unknown
Published: May 14, 2023
ABSTRACT
GABAergic
inhibitory
neurons
fundamentally
shape
the
activity
and
plasticity
of
cortical
circuits.
A
major
subset
these
contains
somatostatin
(SOM);
cells
play
crucial
roles
in
neuroplasticity,
learning
memory
many
brain
areas
including
hippocampus,
are
implicated
several
neuropsychiatric
diseases
neurodegenerative
disorders.
Two
main
types
SOM-containing
area
CA1
hippocampus
oriens-lacunosum-moleculare
(OLM)
hippocampo-septal
(HS)
cells.
These
cell
show
similarities
their
soma-dendritic
architecture,
but
they
have
different
axonal
targets,
display
patterns
vivo
thought
to
distinct
network
functions.
However,
a
complete
understanding
functional
interneurons
requires
precise
description
intrinsic
computational
properties
synaptic
interactions.
In
current
study
we
generated,
analyzed
make
available
key
datasets
that
enable
quantitative
comparison
various
anatomical
physiological
OLM
HS
mouse.
The
dataset
includes
detailed
scanning
electron
microscopy-based
3-dimensional
reconstructions
along
with
excitatory
inputs.
Combining
this
core
other
data,
patch-clamp
electrophysiology
compartmental
modeling,
examined
morphological
structure,
inputs,
outputs,
basic
Our
results
highlight
differences
between
cells,
particularly
regarding
density
distribution
inputs
mitochondria.
For
instance,
estimated
an
receives
about
8400,
whereas
15600
16%
which
GABAergic.
data
models
provide
insight
into
possible
basis
functionality
supply
essential
information
for
more
hippocampal
network.
Psychological Reports,
Journal Year:
2025,
Volume and Issue:
unknown
Published: Jan. 8, 2025
Fear,
an
emotion
ingrained
through
evolutionary
adaptation,
triggers
protective
responses
to
ward
off
threats.
Yet,
in
some
instances,
the
neural
networks
tied
fear
can
lead
psychosomatic
ailments
and
behavioural
issues,
including
maladaptive
type.
This
study
aims
hypothesize
about
fear,
probing
its
neurophysiological
traits
impact
on
cognitive-emotional
facets
of
psyche.
A
systematic
review
theoretical
literature
was
conducted,
utilizing
PubMed
Scopus
databases.
Comparative
analysis,
abstraction,
synthesis
methods
were
employed,
34
sources
that
met
inclusion
criteria
analysed.
Our
findings
highlight
pivotal
role
plays
human
psyche,
potentially
serving
as
foundation
for
all
emotions,
feelings,
states
experienced
by
individuals.
Treating
related
anxiety
disorders
poses
challenges
due
recurrence
fear-based
memories,
which
perpetuate
negative
symptoms
patients.
Various
techniques,
like
hypnotherapy,
cognitive
therapy,
exposure
are
actively
employed
with
these
However,
none
offer
a
universal
solution,
necessitating
personalized
approaches
address
individual
fears.
MindChat
may
be
promising
therapeutic
settings
without
altering
cognition
or
fostering
avoidance
behaviour,
but
empirical
evidence
supporting
efficacy
is
limited,
further
research
needed
validate
effectiveness.
The
utilization
potent
tool
engaging
psyche
underscores
potential
value
this
psychotherapists
clinical
practice
professionals
affective
neurobiology
psychology.
It
redirects
attention
toward
fear’s
significance,
urging
deeper
exploration
future
endeavours.
PLoS Biology,
Journal Year:
2024,
Volume and Issue:
22(3), P. e3002539 - e3002539
Published: March 12, 2024
GABAergic
inhibitory
neurons
fundamentally
shape
the
activity
and
plasticity
of
cortical
circuits.
A
major
subset
these
contains
somatostatin
(SOM);
cells
play
crucial
roles
in
neuroplasticity,
learning,
memory
many
brain
areas
including
hippocampus,
are
implicated
several
neuropsychiatric
diseases
neurodegenerative
disorders.
Two
main
types
SOM-containing
area
CA1
hippocampus
oriens-lacunosum-moleculare
(OLM)
hippocampo-septal
(HS)
cells.
These
cell
show
similarities
their
soma-dendritic
architecture,
but
they
have
different
axonal
targets,
display
patterns
vivo,
thought
to
distinct
network
functions.
However,
a
complete
understanding
functional
interneurons
requires
precise
description
intrinsic
computational
properties
synaptic
interactions.
In
current
study
we
generated,
analyzed,
make
available
key
data
sets
that
enable
quantitative
comparison
various
anatomical
physiological
OLM
HS
mouse.
The
set
includes
detailed
scanning
electron
microscopy
(SEM)-based
3D
reconstructions
along
with
excitatory
inputs.
Combining
this
core
other
data,
patch-clamp
electrophysiology,
compartmental
modeling,
examined
morphological
structure,
inputs,
outputs,
basic
Our
results
highlight
differences
between
cells,
particularly
regarding
density
distribution
inputs
mitochondria.
For
example,
estimated
an
receives
about
8,400,
whereas
15,600
16%
which
GABAergic.
models
provide
insight
into
possible
basis
functionality
supply
essential
information
for
more
hippocampal
network.
Journal of Neuroscience and Neurological Disorders,
Journal Year:
2025,
Volume and Issue:
9(1), P. 001 - 009
Published: March 10, 2025
Background:
The
amygdala
is
a
core
structure
in
the
mammalian
brain
that
processes
emotion
and
memory.
Its
complex
neuronal
composition
intricate
microcircuit
mechanisms
play
key
roles
behaviors
such
as
fear,
anxiety,
reward.
diversity
of
types
dynamics
these
microcircuits
provide
neural
foundation
for
encoding
extinction
fear
memories.
Aim:
This
retrospective
review
article
summarizing
recent
research
on
behavior
mice,
which
significant
importance
helping
people
to
comprehensively
understand
recognize
regulator
behavior.
Methodology:
An
extensive
systematic
search
electronic
databases
(Medline,
PubMed,
Web
Science)
using
keywords
related
technologies
involved
study
“mouse
amygdala,”
“basolateral
(BLA),”
“central
(CeA),”
“fear
extinction,”
learning,”
“microcircuits.”
Articles
meeting
selection
criteria
were
included
candidate
references.
Results:
By
integrating
findings
from
optogenetics,
chemogenetics,
single-cell
sequencing,
this
reveals
interactions
between
glutamatergic
projection
neurons
GABAergic
interneurons
amygdala,
functional
division
subnuclei,
basis
cross-brain
area
coordination.
Additionally,
it
discusses
technical
challenges
future
directions,
providing
theoretical
support
understanding
pathophysiology
emotional
disorders.
Conclusion:
intimately
linked
health,
playing
critical
role
underlying
development
psychiatric
disorders
depression,
addiction,
post-traumatic
stress
disorder
(PTSD).
Despite
advances
methodologies
vivo
calcium
imaging,
circuit
tracing,
electrophysiological
techniques,
are
progressively
uncovering
amygdalar
regulation
behaviors,
intrinsic
microcircuitry
remains
highly
complex.
Significant
gaps
persist,
necessitating
further
exploration
refinement
elucidate
unresolved
aspects
its
architecture
behavioral
modulation.
Scientific Reports,
Journal Year:
2023,
Volume and Issue:
13(1)
Published: Dec. 18, 2023
Abstract
Fear
learning
is
a
critical
feature
of
survival
skills
among
mammals.
In
rodents,
fear
manifests
itself
through
direct
experience
the
aversive
event
or
social
transmission
stimuli
such
as
observing
and
acting
on
conspecifics’
distress.
The
neuronal
network
underlying
information
largely
overlaps
with
brain
regions
that
mediate
behavioral
responses
to
rewarding
stimuli.
this
study,
we
recorded
single
cell
activity
patterns
nucleus
accumbens
(NAc)
core
neurons
using
in
vivo
optical
imaging
calcium
transients
via
miniature
scopes.
This
cutting-edge
methodology
not
only
allows
us
record
individual
but
also
lets
longitudinally
follow
these
across
time
different
states.
Using
approach,
identified
NAc
ensembles
respond
experienced
and/or
observed
Our
results
showed
evoke
ensemble
positive,
smaller
subset
negative
responses.
size
response
was
greater
for
compared
events.
revealed
sex
differences
stimuli,
where
females
accumbal
response.
Importantly,
found
subpopulation
within
show
bidirectional
versus
(i.e.,
positive
observed).
suggest
plays
role
differentiating
somatosensory
from
observation
aversion
at
level.
These
have
important
implications
psychopathologies
processing
maladaptive,
autism
spectrum
disorders.
Journal of Neuroscience,
Journal Year:
2023,
Volume and Issue:
43(42), P. 6972 - 6987
Published: Aug. 28, 2023
Perisomatic
inhibition
profoundly
controls
neural
function.
However,
the
structural
organization
of
inhibitory
circuits
giving
rise
to
perisomatic
in
higher-order
cortices
is
not
completely
known.
Here,
we
performed
a
comprehensive
analysis
those
GABAergic
cells
medial
prefrontal
cortex
(mPFC)
that
provide
inputs
onto
somata
and
proximal
dendrites
pyramidal
neurons.
Our
results
show
most
axonal
varicosities
contacting
region
superficial
(layer
2/3)
deep
5)
express
parvalbumin
(PV)
or
cannabinoid
receptor
type
1
(CB1).
Further,
found
ratio
PV/CB1
larger
on
somatic
membrane
surface
tract
neurons
comparison
with
projecting
contralateral
hemisphere.
morphologic
vitro
labeled
PV+
basket
(PVBC)
CCK/CB1+
(CCKBC)
revealed
differences
many
features.
PVBC
axons
arborized
preferentially
within
layer
where
their
soma
was
located.
In
contrast,
CCKBCs
expanded
throughout
layers,
although
were
either
layers.
Finally,
using
anterograde
trans-synaptic
tracing
observed
PVBCs
are
innervated
by
thalamic
basal
amygdala
afferents
layers
5a
5b,
respectively.
Thus,
our
suggest
can
control
local
circuit
operation
layer-specific
manner
via
characteristic
arborization,
whereas
rather
cross-layer
mPFC.
SIGNIFICANCE
STATEMENT
Inhibitory
cortical
crucial
for
precise
network
activity.
Nevertheless,
areas
involved
cognitive
functions
like
decision-making,
working
memory,
flexibility,
cell
understood.
this
study
excitatory
two
types
endowed
different
properties
distinct
specificity
disparate
areas.
Revealing
difference
innervation
strategy
key
step
toward
understanding
how
they
fulfill
roles
operations.
Journal of Neuroscience,
Journal Year:
2024,
Volume and Issue:
44(14), P. e1806232024 - e1806232024
Published: Feb. 15, 2024
An
increasing
number
of
pathogenic
variants
in
presynaptic
proteins
involved
the
synaptic
vesicle
cycle
are
being
discovered
neurodevelopmental
disorders.
The
clinical
features
these
disorders
diverse,
but
most
prevalent
phenotypes
include
intellectual
disability,
epilepsy,
movement
disorders,
cerebral
visual
impairment,
and
psychiatric
symptoms
(
Verhage
Sørensen,
2020;
Bonnycastle
et
al.,
2021;
John
Melland
2021).
Among
this
growing
list
frequent
is
bioRxiv (Cold Spring Harbor Laboratory),
Journal Year:
2023,
Volume and Issue:
unknown
Published: July 19, 2023
Summary
Empathy
is
the
ability
to
adopt
others’
sensory
and
emotional
states
an
evolutionarily
conserved
trait
among
mammals.
In
rodents,
empathy
manifests
itself
as
social
modulation
of
aversive
stimuli
such
acknowledging
acting
on
conspecifics’
distress.
The
neuronal
network
underlying
transmission
information
known
overlap
with
brain
regions
that
mediate
behavioral
responses
rewarding
stimuli.
this
study,
we
recorded
single
cell
activity
patterns
nucleus
accumbens
(NAc)
core
neurons
using
in
vivo
optical
imaging
calcium
transients
via
miniature
scopes.
This
cutting-edge
methodology
not
only
allows
us
record
individual
but
also
lets
longitudinally
follow
these
across
time
different
states.
Using
approach,
identified
NAc
ensembles
respond
experienced
and/or
observed
Our
results
showed
evoke
ensemble
largely
positive,
a
smaller
subset
negative
responses.
size
response
was
greater
for
compared
events.
revealed
subpopulation
within
show
bidirectional
versus
(i.e.,
positive
observed).
These
suggest
plays
role
differentiating
somatosensory
experience
from
observation
aversion
at
level.
has
important
implications
psychopathologies
where
processing
maladaptive,
autism
spectrum
disorders.
Anatomical Science International,
Journal Year:
2023,
Volume and Issue:
99(1), P. 17 - 33
Published: Oct. 14, 2023
Abstract
Brain
computation
relies
on
the
neural
networks.
Neurons
extend
neurites
such
as
dendrites
and
axons,
contacts
of
these
that
form
chemical
synapses
are
biological
basis
signal
transmissions
in
central
nervous
system.
Individual
neuronal
outputs
can
influence
other
neurons
within
range
axonal
spread,
while
activities
single
be
affected
by
afferents
their
somatodendritic
fields.
The
morphological
profile,
therefore,
binds
functional
role
each
neuron
play.
In
addition,
synaptic
connectivity
among
displays
preference
based
characteristics
presynaptic
postsynaptic
neurons.
Here,
author
reviews
“spatial”
“temporal”
connection
selectivity
neocortex.
histological
description
neocortical
circuitry
depends
primarily
classification
cell
types,
development
gene
engineering
techniques
allows
type-specific
visualization
axons
well
somata.
Using
genetic
labeling
particular
populations
combined
with
immunohistochemistry
imaging
at
a
subcellular
spatial
resolution,
we
revealed
“spatial
selectivity”
cortical
wirings
which
non-uniformly
distributed
domains
manner.
dynamics
learning
exhibit
type-dependent
“temporal
selectivity”:
corticocortical
appear
only
transiently
during
phase,
learning-induced
new
thalamocortical
persist,
indicating
distinct
circuits
may
supervise
learning-specific
ephemeral
synapse
memory-specific
immortal
formation.
configuration
temporal
reconfiguration
govern
diverse
functions
