Laura Navarro-Borelly scite author profile

Ca2+ entry through store-operated Ca 2+ release-activated Ca 2+ (CRAC) channels initiates key functions such as gene expression and exocytosis of inflammatory mediators. Activation of CRAC channels by store depletion involves the redistribution of the ER Ca 2+ sensor, stromal interaction molecule 1 (STIM1), to peripheral sites where it co-clusters with the CRAC channel subunit, Orai1. However, how STIM1 communicates with the CRAC channel and initiates the subsequent events culminating in channel opening is unclear. Here, we show that redistribution of STIM1 and Orai1 occurs in parallel with a pronounced increase in fluorescence resonance energy transfer (FRET) between STIM1 and Orai1, supporting the idea that activation of CRAC channels occurs through physical interactions with STIM1. Co-expression of Orai1-CFP and Orai1-YFP results in a high degree of FRET in resting cells, indicating that Orai1 exists as a multimer. However, store depletion triggers molecular rearrangements in Orai1 resulting in a decline in Orai1-Orai1 FRET. The decline in Orai1-Orai1 FRET is not seen in the absence of STIM1 co-expression and is abolished in Orai1 mutants with impaired STIM1 interaction. Both the STIM1-Orai1 interaction as well as the molecular rearrangements in Orai1 are altered by two powerful modulators of CRAC channel activity: extracellular Ca 2+ and 2-APB. These studies identify a STIM1-dependent conformational change in Orai1 during the activation of CRAC channels and reveal that STIM1-Orai1 interaction and the downstream Orai1 conformational change can be independently modulated to fine-tune CRAC channel activity.

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Orai1 Mutations Alter Ion Permeation and Ca2+-dependent Fast Inactivation of CRAC Channels: Evidence for Coupling of Permeation and Gating

Yamashita

et al. 2007

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Ca2+ entry through store-operated Ca2+ release-activated Ca2+ (CRAC) channels is an essential trigger for lymphocyte activation and proliferation. The recent identification of Orai1 as a key CRAC channel pore subunit paves the way for understanding the molecular basis of Ca2+ selectivity, ion permeation, and regulation of CRAC channels. Previous Orai1 mutagenesis studies have indicated that a set of conserved acidic amino acids in trans membrane domains I and III and in the I–II loop (E106, E190, D110, D112, D114) are essential for the CRAC channel's high Ca2+ selectivity. To further dissect the contribution of Orai1 domains important for ion permeation and channel gating, we examined the role of these conserved acidic residues on pore geometry, properties of Ca2+ block, and channel regulation by Ca2+. We find that alteration of the acidic residues lowers Ca2+ selectivity and results in striking increases in Cs+ permeation. This is likely the result of enlargement of the unusually narrow pore of the CRAC channel, thus relieving steric hindrance for Cs+ permeation. Ca2+ binding to the selectivity filter appears to be primarily affected by changes in the apparent on-rate, consistent with a rate-limiting barrier for Ca2+ binding. Unexpectedly, the mutations diminish Ca2+-mediated fast inactivation, a key mode of CRAC channel regulation. The decrease in fast inactivation in the mutant channels correlates with the decrease in Ca2+ selectivity, increase in Cs+ permeability, and enlargement of the pore. We propose that the structural elements involved in ion permeation overlap with those involved in the gating of CRAC channels.

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Laura Navarro-Borelly

STIM1–Orai1 interactions and Orai1 conformational changes revealed by live‐cell FRET microscopy

Orai1 Mutations Alter Ion Permeation and Ca2+-dependent Fast Inactivation of CRAC Channels: Evidence for Coupling of Permeation and Gating

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