Litcius/Paper detail

Mechanisms of ion selectivity and throughput in the mitochondrial calcium uniporter

Bryce D. Delgado, Stephen B. Long

2022Science Advances14 citationsDOIOpen Access PDF

Abstract

The mitochondrial calcium uniporter, which regulates aerobic metabolism by catalyzing mitochondrial Ca 2+ influx, is arguably the most selective ion channel known. The mechanisms for this exquisite Ca 2+ selectivity have not been defined. Here, using a reconstituted system, we study the electrical properties of the channel’s minimal Ca 2+ -conducting complex, MCU-EMRE, from Tribolium castaneum to probe ion selectivity mechanisms. The wild-type Tc MCU-EMRE complex recapitulates hallmark electrophysiological properties of endogenous Uniporter channels. Through interrogation of pore-lining mutants, we find that a ring of glutamate residues, the “E-locus,” serves as the channel’s selectivity filter. Unexpectedly, a nearby “D-locus” at the mouth of the pore has diminutive influence on selectivity. Anomalous mole fraction effects indicate that multiple Ca 2+ ions are accommodated within the E-locus. By facilitating ion-ion interactions, the E-locus engenders both exquisite Ca 2+ selectivity and high ion throughput. Direct comparison with structural information yields the basis for selective Ca 2+ conduction by the channel.

Topics & Concepts

UniporterSelectivityBiophysicsChemistryIon channelCalciumMutantIonBiochemistryBiologyGeneCytosolReceptorEnzymeOrganic chemistryCatalysisMitochondrial Function and PathologyIon channel regulation and functionNeuroscience and Neuropharmacology Research