About: Viroporins are small virus-encoded ion channel proteins. Most viroporins are monovalent selective cation channels, with few showing the ability to conduct divalent cations, like calcium (Ca(2+)). Nevertheless, some viroporins are known to disrupt host cell Ca(2+) homeostasis, which is critical for virus replication and pathogenesis. Rotavirus nonstructural protein 4 (NSP4) is an endoplasmic reticulum transmembrane glycoprotein that has a viroporin domain (VPD), and NSP4 viroporin activity elevates cytosolic Ca(2+) in mammalian cells. The goal of this study was to demonstrate that the NSP4 VPD forms an ion channel and determine whether the channel can conduct Ca(2+). Using planar lipid bilayer and liposome patch clamp electrophysiology, we show that a synthetic peptide of the NSP4 VPD has ion channel activity. The NSP4 VPD was selective for cations over anions and channel activity was observed to have both well-defined “square top” openings as well as fast current fluctuations, similar to other viroporins. Importantly, the NSP4 VPD showed similar conductance of divalent cations (Ca(2+) and Ba(2+)) as monovalent cations (K(+)), but a viroporin defective mutant lacked Ca(2+) conductivity. These data demonstrate that the NSP4 VPD is a Ca(2+)-conducting viroporin and establish the mechanism by which NSP4 disturbs host cell Ca(2+) homeostasis.   Goto Sponge  NotDistinct  Permalink

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  • Viroporins are small virus-encoded ion channel proteins. Most viroporins are monovalent selective cation channels, with few showing the ability to conduct divalent cations, like calcium (Ca(2+)). Nevertheless, some viroporins are known to disrupt host cell Ca(2+) homeostasis, which is critical for virus replication and pathogenesis. Rotavirus nonstructural protein 4 (NSP4) is an endoplasmic reticulum transmembrane glycoprotein that has a viroporin domain (VPD), and NSP4 viroporin activity elevates cytosolic Ca(2+) in mammalian cells. The goal of this study was to demonstrate that the NSP4 VPD forms an ion channel and determine whether the channel can conduct Ca(2+). Using planar lipid bilayer and liposome patch clamp electrophysiology, we show that a synthetic peptide of the NSP4 VPD has ion channel activity. The NSP4 VPD was selective for cations over anions and channel activity was observed to have both well-defined “square top” openings as well as fast current fluctuations, similar to other viroporins. Importantly, the NSP4 VPD showed similar conductance of divalent cations (Ca(2+) and Ba(2+)) as monovalent cations (K(+)), but a viroporin defective mutant lacked Ca(2+) conductivity. These data demonstrate that the NSP4 VPD is a Ca(2+)-conducting viroporin and establish the mechanism by which NSP4 disturbs host cell Ca(2+) homeostasis.
Subject
  • Virology
  • Rotaviruses
  • Membrane biology
  • Protein families
  • Viral nonstructural proteins
  • Virus genera
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