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Intravital quantification reveals dynamic calcium concentration changes across B cell differentiation stages

Carolin Ulbricht, Ruth Leben, Asylkhan Rakhymzhan, Frank Kirchhoff, Lars Nitschke, Helena Radbruch, Raluca Niesner, Anja E. Hauser

2021eLife23 citationsDOIOpen Access PDF

Abstract

ions drives a number of signaling-related processes, stress-responses, or metabolic changes, all of which are relevant for the development of immune cells and their adaption to pathogens. Here, we introduce the Förster resonance energy transfer (FRET)-reporter mouse YellowCaB expressing the genetically encoded calcium indicator TN-XXL in B lymphocytes. Calcium-induced conformation change of TN-XXL results in FRET-donor quenching measurable by two-photon fluorescence lifetime imaging. For the first time, using our novel numerical analysis, we extract absolute cytoplasmic calcium concentrations in activated B cells during affinity maturation in vivo. We show that calcium in activated B cells is highly dynamic and that activation introduces a persistent calcium heterogeneity to the lineage. A characterization of absolute calcium concentrations present at any time within the cytosol is therefore of great value for the understanding of long-lived beneficial immune responses and detrimental autoimmunity.

Topics & Concepts

CalciumFörster resonance energy transferCytosolCalcium signalingCell biologyCalcium metabolismSecond messenger systemBiologyCytoplasmChemistryBiophysicsImmune systemCalcium imagingBiochemistryFluorescenceSignal transductionImmunologyEnzymeQuantum mechanicsPhysicsOrganic chemistryinterferon and immune responsesT-cell and B-cell ImmunologyCalcium signaling and nucleotide metabolism