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Hypertonicity-induced cation channels in HepG2 cells: architecture and role in proliferation vs. apoptosis.

Authors
  • Koos, Björn1
  • Christmann, Jens1
  • Plettenberg, Sandra1
  • Käding, Domenic1
  • Becker, Julia1
  • Keteku, Melody1
  • Klein, Christian1
  • Imtiaz, Sarah1
  • Janning, Petra1
  • Bastiaens, Philippe I H1
  • Wehner, Frank1
  • 1 Max Planck Institute of Molecular Physiology, Department of Systemic Cell Biology, Otto-Hahn-Strasse 11, 44227, Dortmund, Germany. , (Germany)
Type
Published Article
Journal
The Journal of Physiology
Publisher
Wiley (Blackwell Publishing)
Publication Date
Apr 01, 2018
Volume
596
Issue
7
Pages
1227–1241
Identifiers
DOI: 10.1113/JP275827
PMID: 29369356
Source
Medline
Keywords
License
Unknown

Abstract

Hypertonicity-induced cation channels (HICCs) are a substantial element in the regulatory volume increase (RVI) of osmotically shrunken cells. Under isotonic conditions, they are key effectors in the volume gain preceding proliferation; HICC repression, in turn, significantly increases apoptosis rates. Despite these fundamental roles of HICCs in cell physiology, very little is known concerning the actual molecular architecture of these channels. Here, an siRNA screening of putative ion channels and transporters was performed, in HepG2 cells, with the velocity of RVI as the read-out; in this first run, δENaC, TRPM2 and TRPM5 could be identified as HICCs. In the second run, all permutations of these channels were tested in RVI and patch-clamp recordings, with special emphasis on the non-additivity and additivity of siRNAs - which would indicate molecular interactions or independent ways of channel functioning. At first sight, the HICCs in HepG2 cells appeared to operate rather independently. However, a proximity ligation assay revealed that δENaC was located in proximity to both TRPM2 and TRPM5. Furthermore, a clear synergy of HICC current knock-downs (KDs) was observed. δENaC, TRPM2 and TRPM5 were defined as mediators of HepG2 cell proliferation and their silencing increased the rates of apoptosis. This study provides a molecular characterization of the HICCs in human hepatocytes and of their role in RVI, cell proliferation and apoptosis.

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