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Pannexins (from Greek 'παν' — all, and from Latin 'nexus' — connection) are a family of vertebrate proteins identified by their homology to the invertebrate innexins. While innexins are responsible for forming gap junctions in invertebrates, the pannexins have been shown to predominantly exist as large transmembrane Ion channel connecting the intracellular and extracellular space, allowing the passage of ions and small molecules between these compartments (such as ATP and sulforhodamine B).
Three pannexins have been described in Chordates: Panx1, Panx2 and Panx3.
Pannexin 1 has been shown to be involved in early stages of innate immunity through an interaction with the P2X7 purinergic receptor. Activation of the pannexin channel through binding of ATP to P2X7 receptor leads to the release of interleukin-1β.
Hypothetical roles of pannexins in the nervous system include participating in sensory processing, synchronization between hippocampus and Cerebral cortex, hippocampal plasticity, and propagation of calcium waves. Calcium waves are supported by glial cells, which help maintain and modulate neuronal metabolism. According to one of the hypotheses, pannexins also may participate in pathological reactions, including the neural damage after ischemia and subsequent cell death.
Pannexin 1 channels are pathways for release of ATP from cells.
The N-terminal portion () of VRAC-forming LRRC8 proteins like LRRC8A may also be related to pannexins.
The structure of a Xenopus tropicalis (western clawed frog) pannexin () has been solved. It forms a heptameric disc. The human version () is similar.
Pannexins may be involved in the process of tumor development. Particularly, PANX2 expression levels predict post diagnosis survival for patients with glial tumors.
Probenecid, a well-established drug for the treatment of gout, allows for discrimination between channels formed by and pannexins. Probenecid does not affect channels formed by connexins, but it inhibits pannexin-1 channels.
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