Issue 34, 2021

The key role of the central cavity in sodium transport through ligand-gated two-pore channels

Abstract

Subcellular and organellar mechanisms have manifested a prominent importance for a broad variety of processes that maintain cellular life at its most basic level. Mammalian two-pore channels (TPCs) appear to be cornerstones of these processes in endo-lysosomes by controlling delicate ion-concentrations in their interiors. With evolutionary remarkable architecture and one-of-a-kind selectivity filter, TPCs are an extremely attractive topic per se. In the light of the current COVID-19 pandemic, hTPC2 emerges to be more than attractive. As a key regulator of the endocytosis pathway, it is potentially essential for diverse viral infections in humans, as demonstrated. Here, by means of multiscale molecular simulations, we propose a model of sodium transport from the lumen to the cytosol where the central cavity works as a reservoir. Since the inhibition of hTPC2 is proven to stop SARS-CoV2 in vitro, shedding light on the hTPC2 function and mechanism is the first step towards the selection of potential inhibiting candidates.

Graphical abstract: The key role of the central cavity in sodium transport through ligand-gated two-pore channels

Supplementary files

Article information

Article type
Paper
Submitted
29 Jun 2021
Accepted
11 Aug 2021
First published
11 Aug 2021

Phys. Chem. Chem. Phys., 2021,23, 18461-18474

The key role of the central cavity in sodium transport through ligand-gated two-pore channels

S. Milenkovic, I. V. Bodrenko, A. Carpaneto and M. Ceccarelli, Phys. Chem. Chem. Phys., 2021, 23, 18461 DOI: 10.1039/D1CP02947A

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