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Intravital calcium imaging in myeloid leukocytes identifies calcium frequency spectra as indicators of functional states

Fitsumbirhan T. Mehari, Meike Miller, Robert Pick, Almke Bader, Kami Pekayvaz, Matteo Napoli, Bernd Uhl, Christoph A. Reichel, Markus Sperandio, Barbara Walzog, Christian Schulz, Steffen Maßberg, Konstantin Stark

2022Science Signaling10 citationsDOI

Abstract

The assessment of leukocyte activation in vivo is mainly based on surrogate parameters, such as cell shape changes and migration patterns. Consequently, additional parameters are required to dissect the complex spatiotemporal activation of leukocytes during inflammation. Here, we showed that intravital microscopy of myeloid leukocyte Ca 2+ signals with Ca 2+ reporter mouse strains combined with bioinformatic signal analysis provided a tool to assess their activation in vivo. We demonstrated by two-photon microscopy that tissue-resident macrophages reacted to sterile inflammation in the cremaster muscle with Ca 2+ transients in a distinct spatiotemporal pattern. Moreover, through high-resolution, intravital spinning disk confocal microscopy, we identified the intracellular Ca 2+ signaling patterns of neutrophils during the migration cascade in vivo. These patterns were modulated by the Ca 2+ channel Orai1 and Gα i -coupled GPCRs, whose effects were evident through analysis of the range of frequencies of the Ca 2+ signal (frequency spectra), which provided insights into the complex patterns of leukocyte Ca 2+ oscillations. Together, these findings establish Ca 2+ frequency spectra as an additional dimension to assess leukocyte activation and migration during inflammation in vivo.

Topics & Concepts

Intravital microscopyIn vivoInflammationCell biologyConfocal microscopyCalcium imagingBiologyCalciumIn vitroChemistryBiophysicsImmunologyBiochemistryOrganic chemistryBiotechnologyIon Channels and ReceptorsNeuroinflammation and Neurodegeneration MechanismsCircadian rhythm and melatonin