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astrocytens

Astrocytens are a proposed class of signaling molecules derived from astrocytes that are theorized to participate in communication between glial cells and neurons and to influence cerebral blood flow. The term is not part of a widely established scientific consensus, and its use appears mainly in speculative discussions or exploratory models of astrocyte-neuron interactions. As such, astrocytens have not been chemically defined in a universally accepted way, and their existence remains a topic of ongoing investigation.

In conceptual models, astrocytens could encompass a range of potential mediators, including small peptides, lipids, or

Research on astrocytens faces challenges such as defining their molecular identity, distinguishing them from established gliotransmitters,

unconventional
neurotransmitters
released
from
astrocytic
vesicles
or
through
other
release
pathways
in
response
to
intracellular
calcium
signals.
They
are
posited
to
modulate
neuronal
activity
by
acting
on
receptors
or
channels
on
nearby
neurons,
influencing
synaptic
transmission,
neuronal
excitability,
and
possibly
the
reuptake
or
clearance
of
neurotransmitters.
Some
hypotheses
suggest
they
may
contribute
to
neurovascular
coupling
and
local
blood
flow
adjustments
in
active
brain
regions.
and
developing
reliable
in
vivo
detection
methods.
The
concept
remains
controversial
in
parts
of
the
neuroscience
community,
reflecting
broader
debates
about
gliotransmission
and
glial
signaling.
If
validated,
astrocytens
could
offer
new
insights
into
neuron-glia
communication,
synaptic
regulation,
and
the
mechanisms
underlying
various
neurological
conditions.