bioRxiv (Cold Spring Harbor Laboratory),
Год журнала:
2024,
Номер
unknown
Опубликована: Окт. 31, 2024
Abstract
Tuberous
sclerosis
complex
(TSC)
is
a
multisystemic
genetic
disorder
associated
with
loss-of-function
mutations
in
the
TSC1
or
TSC2
gene,
which
lead
mTOR
pathway
hyperactivation
and
epileptogenesis.
Cortical
tubers
are
hallmark
of
TSC
represent
disorganized
cortical
structure
underlying
generation
focal
seizures.
Here,
we
report
single-nucleus
RNA
sequencing
resected
vs
matched
pediatric
controls.
Strikingly,
spite
severe
disorganization,
found
that
preserve
all
neuronal
subtypes,
even
rarest
ones.
Moreover,
showed
principal
neurons
largely
spatial
position
based
on
transcriptional
signatures.
Principal
layer
1-2
GABAergic
modulate
upper
circuits
exhibited
largest
gene
expression
changes.
Interestingly,
multiple
changes
counteracted
hyperactivation.
neuronal,
but
not
glial,
networks
massive
metabolic
reorganization
reduction
mitochondrial
respiration
concomitant
switch
to
fatty
acid
metabolism.
Finally,
show
neuron-specific
AMPA
receptor
signaling
might
underlie
epileptogenesis
could
potential
candidate
for
therapeutic
targeting.
Proceedings of the National Academy of Sciences,
Год журнала:
2025,
Номер
122(4)
Опубликована: Янв. 22, 2025
Neuronal
processing
of
external
sensory
input
is
shaped
by
internally
generated
top–down
information.
In
the
neocortex,
projections
primarily
target
layer
1,
which
contains
NDNF
(neuron-derived
neurotrophic
factor)-expressing
interneurons
and
dendrites
pyramidal
cells.
Here,
we
investigate
hypothesis
that
shape
cortical
computations
in
an
unconventional,
layer-specific
way,
exerting
presynaptic
inhibition
on
synapses
1
while
leaving
deeper
layers
unaffected.
We
first
confirm
experimentally
auditory
cortex,
from
somatostatin-expressing
(SOM)
onto
neurons
are
indeed
modulated
ambient
Gamma-aminobutyric
acid
(GABA).
Shifting
to
a
computational
model,
then
show
this
mechanism
introduces
distinct
mutual
motif
between
synaptic
outputs
SOM
interneurons.
This
can
control
way
competition
for
dendritic
cells
different
timescales.
thereby
information
flow
redistributing
fast
slow
timescales
gating
sources
inhibition.
bioRxiv (Cold Spring Harbor Laboratory),
Год журнала:
2025,
Номер
unknown
Опубликована: Янв. 11, 2025
ABSTRACT
Non-rapid
eye
movement
(NREM)
sleep
facilitates
memory
consolidation
by
transferring
information
from
the
hippocampus
to
neocortex.
Recent
evidence
suggests
that
this
transfer
occurs
primarily
when
hippocampal
sharp-wave
ripples
(SWRs)
and
thalamocortical
spindles
are
synchronized.
In
study,
we
asked
what
role
cortical
layer
1
NDNF-expressing
(L1
NDNF)
interneurons
play
during
NREM
in
gating
SWR-spindle
synchronization.
Using
simultaneous
cell-specific
calcium
imaging
local
field
potential
recordings
freely
moving
mice,
discovered
L1
NDNF
neurons
form
cell
assemblies
tuned
specific
stages,
exhibiting
differential
responses
spindle
mediate
slow
inhibition
through
GABA
B
receptors.
Systemic
application
of
a
receptor
antagonist
increased
pyramidal
neuron
excitability
sleep,
enhanced
inhibitory
SWRs,
disrupted
coupling.
Overall,
these
findings
suggest
an
important
contribution
neuron-mediated
synchronization
oscillations
with
implications
for
processes.
Frontiers in Cellular Neuroscience,
Год журнала:
2025,
Номер
18
Опубликована: Янв. 23, 2025
Understanding
cortical
inhibition
and
its
diverse
roles
remains
a
key
challenge
in
neurophysiological
research.
Traditionally,
has
been
recognized
for
controlling
the
stability
rhythmicity
of
network
dynamics,
or
refining
spatiotemporal
properties
representations.
In
this
perspective,
we
propose
that
specific
types
interneurons
may
play
complementary
role,
by
modulating
computational
neural
networks.
We
review
experimental
theoretical
evidence,
mainly
from
rodent
sensory
cortices,
supports
view.
Additionally,
explore
how
dysfunctions
these
disrupt
network’s
ability
to
switch
between
modes,
impacting
flexibility
processing
potentially
contributing
various
neurodevelopmental
psychiatric
disorders.
The Journal of Comparative Neurology,
Год журнала:
2025,
Номер
533(3)
Опубликована: Март 1, 2025
Cortical
Layer
1
(L1)
acts
as
a
critical
relay
for
processing
long-range
inputs.
GABAergic
inhibitory
interneurons
(INs)
in
this
layer
(Layer
[L1INs])
function
gates,
regulating
these
inputs
and
modulating
the
activity
of
deeper
cortical
layers.
However,
their
characteristics
circuits
medial
prefrontal
cortex
(mPFC)
remain
poorly
understood.
Using
biocytin
labeling,
we
identified
three
distinct
morphological
types
mPFC
L1INs:
neurogliaform
cells
(NGCs),
elongated
NGCs
(eNGCs),
single-bouquet
cell-like
(SBC-like)
cells.
Whole-cell
recordings
revealed
firing
patterns
across
subtypes:
eNGCs
predominantly
exhibited
late-spiking
(LS)
patterns,
SBC-like
displayed
higher
prevalence
non-LS
(NLS)
patterns.
We
observed
both
electrical
chemical
connections
among
L1INs.
Optogenetic
activation
NDNF+
L1INs
demonstrated
broad
effects
on
neurons.
The
strength
inhibition
pyramidal
neurons
(PyNs)
INs
layer-specific
preference.
These
findings
highlight
functional
diversity
suggest
potential
role
supporting
order
cognitive
functions.
Cell Reports,
Год журнала:
2025,
Номер
44(5), С. 115678 - 115678
Опубликована: Май 1, 2025
GABAergic
interneurons
in
cortical
layer
1
(L1)
integrate
sensory
and
top-down
inputs
to
modulate
network
activity
support
learning-related
plasticity.
However,
little
is
known
about
how
drive
L1
interneuron
activity.
We
used
two-photon
calcium
imaging
measure
sound-evoked
responses
two
populations
expressing
vasoactive
intestinal
peptide
(VIP)
or
neuron-derived
neurotrophic
factor
(NDNF)
mouse
auditory
cortex.
found
that
respond
both
simple
complex
sounds,
but
their
are
highly
variable
across
trials.
Despite
this
variability,
these
reliably
a
narrow
range
of
stimuli,
reflecting
selectivity
for
specific
spectrotemporal
sound
features.
Response
reliability
was
modulated
by
behavioral
state
predicted
the
neighboring
interneurons.
These
findings
reveal
exhibit
tuning
identify
modulation
response
as
potential
mechanism
which
relays
state-dependent
cues
shape
representations.
bioRxiv (Cold Spring Harbor Laboratory),
Год журнала:
2024,
Номер
unknown
Опубликована: Июнь 8, 2024
Neurogliaform
cells
are
a
distinct
type
of
GABAergic
cortical
interneurons
known
for
their
volume
transmission
output
property.
However,
activity
and
function
within
circuits
remain
unclear.
Here,
we
developed
two
genetic
tools
to
target
these
neurons
examine
in
the
primary
visual
cortex.
We
found
that
spontaneous
neurogliaform
positively
correlated
with
locomotion.
Silencing
increased
during
locomotion
impaired
responses
L2/3
pyramidal
neurons.
Furthermore,
contrast-dependent
response
varies
laminar
location
is
constrained
by
morphology
input
connectivity.
These
findings
demonstrate
importance
regulating
behavioral
state-dependent
indicate
functional
engagement
stimuli
influenced
positioning
Frontiers in Cellular Neuroscience,
Год журнала:
2024,
Номер
18
Опубликована: Июль 24, 2024
GABAergic
interneurons
(INs)
in
the
mammalian
forebrain
represent
a
diverse
population
of
cells
that
provide
specialized
forms
local
inhibition
to
regulate
neural
circuit
activity.
Over
last
few
decades,
development
palette
genetic
tools
along
with
generation
single-cell
transcriptomic
data
has
begun
reveal
molecular
basis
IN
diversity,
thereby
providing
deep
insights
into
how
different
subtypes
function
forebrain.
In
this
review,
we
outline
emerging
picture
cortical
and
hippocampal
speciation
as
defined
by
transcriptomics
developmental
origin
summarize
strategies
have
been
utilized
target
specific
subtypes,
technical
considerations
inherent
each
approach.
Collectively,
these
methods
greatly
facilitated
our
understanding
circuitry
via
cell
type
compartment-specific
thus
illuminated
path
toward
potential
therapeutic
interventions
for
variety
neurocognitive
disorders.
Research Square (Research Square),
Год журнала:
2024,
Номер
unknown
Опубликована: Июль 2, 2024
Abstract
Neurogliaform
cells
are
a
distinct
type
of
GABAergic
cortical
interneurons
known
for
their
‘volume
transmission’
output
property.
However,
activity
and
function
within
circuits
remain
unclear.
Here,
we
developed
two
genetic
tools
to
target
these
neurons
examine
in
the
primary
visual
cortex.
We
found
that
spontaneous
neurogliaform
positively
correlated
with
locomotion.
Silencing
increased
during
locomotion
impaired
responses
L2/3
pyramidal
neurons.
Furthermore,
contrast-dependent
response
varies
laminar
location
is
constrained
by
morphology
input
connectivity.
These
findings
demonstrate
importance
regulating
behavioral
state-dependent
indicate
functional
engagement
stimuli
influenced
positioning
