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interneuroner

Interneurons are neurons that connect other neurons within the same region of the central nervous system, rather than projecting to distant targets. They form local circuits that regulate the flow of information, contribute to processing within neural networks, and influence the timing and synchronization of neuronal activity.

In the brain, interneurons are highly diverse. Many are inhibitory, using GABA as their primary neurotransmitter,

Developmentally, most cortical interneurons originate in the ventral forebrain, particularly the medial and caudal ganglionic eminences,

Dysfunction of interneurons has been linked to several neurological and psychiatric disorders, including epilepsy, schizophrenia, autism

Interneurons are a broad category found throughout the central nervous system, including the spinal cord, where

while
some
are
excitatory.
They
are
abundant
in
the
cerebral
cortex,
hippocampus,
and
spinal
cord,
where
they
modulate
the
activity
of
principal
neurons.
Functional
classes
are
often
defined
by
molecular
markers
and
connectivity,
such
as
parvalbumin-positive,
somatostatin-positive,
and
VIP-positive
interneurons,
each
with
characteristic
targets
and
firing
patterns.
Interneurons
can
target
the
soma,
dendrites,
or
axon
initial
segments
of
other
neurons,
enabling
precise
control
of
excitation
and
inhibition
within
circuits.
They
can
act
as
local
circuit
neurons
with
short
axons
or
participate
in
longer-range
associations
within
a
region.
and
migrate
tangentially
into
the
cortex.
Their
diversity
arises
from
transcriptional
programs
and
activity-dependent
refinement
that
shape
synaptic
connections
and
functional
roles
in
mature
circuits.
spectrum
disorders,
and
Rett
syndrome.
Studying
interneurons
helps
explain
how
disruption
of
the
balance
between
excitation
and
inhibition
can
impact
cognition,
behavior,
and
motor
control.
they
participate
in
reflex
circuits
and
locomotor
networks,
emphasizing
their
role
in
shaping
motor
and
sensory
processing.