Affinity maturation of B cell clones within germinal centers constitutes an important mechanism for immune memory. During this process, B cell receptor signaling capacity is tested in multiple rounds of positive selection. Antigen stimulation and co-stimulatory signals mobilize calcium to switch on gene expression leading to proliferation and survival and to differentiation into memory B cells and plasma cells. Additionally, all these processes require adaption of B cell metabolism, and calcium signaling and metabolic pathways are closely interlinked. Mitochondrial adaption, ROS production, and NADPH oxidase activation are involved in cell fate decisions, but it remains elusive to what extent, especially because the analysis of these dynamic processes in germinal centers has to take place in vivo. Here, we introduce a quantitative intravital imaging method for combined measurement of cytoplasmic calcium concentration and enzymatic fingerprinting in germinal center B cells as a possible tool in order to further examine the relationship of calcium signaling and immunometabolism.
Keywords: B cell receptor signaling; B cells; Fluorescence lifetime microscopy; Germinal center; Intravital microscopy; Metabolic reprogramming; NADPH oxidase.
© 2023. The Author(s), under exclusive license to Springer Science+Business Media, LLC, part of Springer Nature.