Calcium signaling mediates mechanotransduction at the multicellular stage of Dictyostelium discoideum

Abstract

AbstractCalcium acts as a second messenger and regulates cellular functions, including cell motility. In Dictyostelium discoideum, the cytosolic calcium level oscillates synchronously, and calcium signal waves propagate in the cell population during the early stages of development, including aggregation. At the unicellular phase, the calcium response through Piezo channels also functions in mechanosensing. However, calcium signaling dynamics during multicellular morphogenesis is still unclear. Here, live-imaging of cytosolic calcium levels revealed that calcium wave propagation, depending on cAMP relay, temporarily disappeared at the onset of multicellular body formation. Alternatively, the occasional burst of calcium signals and their propagation were observed in both anterior and posterior regions of migrating multicellular bodies. Calcium signaling in multicellular bodies occurred in response to mechanical stimulation. Both pathways, calcium release from the endoplasmic reticulum via IP3 receptor and calcium influx from outside the cell, were involved in calcium waves induced by mechanical stimuli. These show that calcium signaling works on mechanosensing in both the unicellular and multicellular phases of Dictyostelium using different molecular mechanisms during development.Summary statementFluorescence imaging revealed that calcium signaling via both endoplasmic reticulum and extracellular pathways plays an important role in mechanosensing during the multicellular stage of Dictyostelium.