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Optical control of trimeric P2X receptors and acid-sensing ion channels. | LitMetric

Optical control of trimeric P2X receptors and acid-sensing ion channels.

Proc Natl Acad Sci U S A

Faculty of Life Sciences and Faculty of Medical and Human Sciences, University of Manchester, Manchester M13 9PL, United Kingdom.

Published: January 2014

AI Article Synopsis

  • Engineering involves creating a specific mutation in the receptor and using a chemical compound to connect subunits, allowing light to cause structural changes that open the channel.
  • This technique can also be applied to other ion channels, like ASICs, highlighting the potential for manipulating these proteins with light in biological research.

Article Abstract

P2X receptors are trimeric membrane proteins that function as ion channels gated by extracellular ATP. We have engineered a P2X2 receptor that opens within milliseconds by irradiation at 440 nm, and rapidly closes at 360 nm. This requires bridging receptor subunits via covalent attachment of 4,4'-bis(maleimido)azobenzene to a cysteine residue (P329C) introduced into each second transmembrane domain. The cis-trans isomerization of the azobenzene pushes apart the outer ends of the transmembrane helices and opens the channel in a light-dependent manner. Light-activated channels exhibited similar unitary currents, rectification, calcium permeability, and dye uptake as P2X2 receptors activated by ATP. P2X3 receptors with an equivalent mutation (P320C) were also light sensitive after chemical modification. They showed typical rapid desensitization, and they could coassemble with native P2X2 subunits in pheochromocytoma cells to form light-activated heteromeric P2X2/3 receptors. A similar approach was used to open and close human acid-sensing ion channels (ASICs), which are also trimers but are unrelated in sequence to P2X receptors. The experiments indicate that the opening of the permeation pathway requires similar and substantial movements of the transmembrane helices in both P2X receptors and ASICs, and the method will allow precise optical control of P2X receptors or ASICs in intact tissues.

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Source
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC3890850PMC
http://dx.doi.org/10.1073/pnas.1318582111DOI Listing

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