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  • Agonist-mediated switching of ion selectivity in TPC2 differentially promotes lysosomal function.

Agonist-mediated switching of ion selectivity in TPC2 differentially promotes lysosomal function.

eLife (2020-03-14)
Susanne Gerndt, Cheng-Chang Chen, Yu-Kai Chao, Yu Yuan, Sandra Burgstaller, Anna Scotto Rosato, Einar Krogsaeter, Nicole Urban, Katharina Jacob, Ong Nam Phuong Nguyen, Meghan T Miller, Marco Keller, Angelika M Vollmar, Thomas Gudermann, Susanna Zierler, Johann Schredelseker, Michael Schaefer, Martin Biel, Roland Malli, Christian Wahl-Schott, Franz Bracher, Sandip Patel, Christian Grimm
ABSTRACT

Ion selectivity is a defining feature of a given ion channel and is considered immutable. Here we show that ion selectivity of the lysosomal ion channel TPC2, which is hotly debated (Calcraft et al., 2009; Guo et al., 2017; Jha et al., 2014; Ruas et al., 2015; Wang et al., 2012), depends on the activating ligand. A high-throughput screen identified two structurally distinct TPC2 agonists. One of these evoked robust Ca2+-signals and non-selective cation currents, the other weaker Ca2+-signals and Na+-selective currents. These properties were mirrored by the Ca2+-mobilizing messenger, NAADP and the phosphoinositide, PI(3,5)P2, respectively. Agonist action was differentially inhibited by mutation of a single TPC2 residue and coupled to opposing changes in lysosomal pH and exocytosis. Our findings resolve conflicting reports on the permeability and gating properties of TPC2 and they establish a new paradigm whereby a single ion channel mediates distinct, functionally-relevant ionic signatures on demand.

MATERIALS
Product Number
Brand
Product Description

Sigma-Aldrich
G 418 disulfate salt, powder, BioReagent, suitable for cell culture
Sigma-Aldrich
TPC2-A1-N, ≥98% (HPLC)
Sigma-Aldrich
TPC2-A1-P, ≥98% (HPLC)