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pannexin

Pannexins are a family of channel-forming glycoproteins that assemble into hexameric channels in the plasma membrane. They create large-pore channels that connect the intracellular space with the extracellular environment, allowing the passage of ions and small signaling molecules such as ATP. In vertebrates, three pannexins have been identified: Panx1, Panx2, and Panx3, encoded by the PANX1-3 genes. Panx1 is widely expressed across tissues, Panx2 is enriched in the central nervous system, and Panx3 is found in skin, bone, and teeth.

Pannexins are often described as forming hemichannels rather than classical intercellular gap junction channels. While connexins

Activation of pannexin channels can occur via mechanical stress, membrane depolarization, and elevated intracellular calcium. A

In research, pannexin function is studied with pharmacological inhibitors such as probenecid and various peptides; these

commonly
pair
across
adjacent
cells
to
form
gap
junctions,
pannexins
predominantly
function
as
single-membrane
channels
that
release
signals
from
the
cytoplasm
into
the
extracellular
space.
Structurally,
Panx1
is
characterized
by
extracellular
loops
that
can
be
N-glycosylated,
a
feature
that
influences
trafficking
and
channel
properties;
Panx2
and
Panx3
display
different
expression
and
glycosylation
patterns
that
relate
to
their
tissue
distribution.
notable
mechanism
for
Panx1
is
caspase-3–mediated
cleavage
during
apoptosis,
leading
to
sustained
ATP
release
and
involvement
in
inflammatory
signaling.
Through
ATP
and
other
metabolites,
pannexin
channels
participate
in
purinergic
signaling
and
can
influence
neuronal
excitability,
immune
responses,
and
vascular
and
sensory
processes.
tools
help
explore
their
roles
in
inflammation,
stroke,
pain,
and
other
pathophysiological
conditions.