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The membrane protein Pannexin1 forms two open-channel conformations depending on the mode of activation. | LitMetric

AI Article Synopsis

  • - Pannexin1 (Panx1) is involved in releasing ATP during different physiological processes, including immune responses, airway functionality, and blood supply regulation.
  • - The study found that Panx1 can exist in two functional states: a high-conductance state allowing ATP flow when activated by potassium ions, and a low-conductance state that doesn't permit ATP passage when voltage-activated without potassium.
  • - The structural differences in these channel states are indicated by variations in reactivity to thiol reagents and larger pore sizes formed under potassium stimulation, highlighting how different signals can alter Panx1's properties.

Article Abstract

Pannexin1 (Panx1) participates in several signaling events that involve adenosine triphosphate (ATP) release, including the innate immune response, ciliary beat in airway epithelia, and oxygen supply in the vasculature. The view that Panx1 forms a large ATP release channel has been challenged by the association of a low-conductance, small anion-selective channel with the presence of Panx1. We showed that Panx1 membrane channels can function in two distinct modes with different conductances and permeabilities when heterologously expressed in Xenopus oocytes. When stimulated by potassium ions (K(+)), Panx1 formed a high-conductance channel of ~500 pS that was permeable to ATP. Various physiological stimuli can induce this ATP-permeable conformation of the channel in several cell types. In contrast, the channel had a low conductance (~50 pS) with no detectable ATP permeability when activated by voltage in the absence of K(+). The two channel states were associated with different reactivities of the terminal cysteine of Panx1 to thiol reagents, suggesting different conformations. Single-particle electron microscopic analysis revealed that K(+) stimulated the formation of channels with a larger pore diameter than those formed in the absence of K(+). These data suggest that different stimuli lead to distinct channel structures with distinct biophysical properties.

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Source
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC4243966PMC
http://dx.doi.org/10.1126/scisignal.2005431DOI Listing

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