Login / Signup

Mechanisms of ion selectivity and throughput in the mitochondrial calcium uniporter.

Bryce D DelgadoStephen Barstow Long
Published in: Science advances (2022)
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.
Keyphrases
  • oxidative stress
  • wild type
  • protein kinase
  • genome wide association study
  • healthcare
  • high intensity
  • living cells
  • high density
  • social media
  • single molecule