Napoli, M.; Immler, R.; Rohwedder, I.; Lupperger, V.; Pfabe, J.; Gonzalez Pisfil, M.; Yevtushenko, A.; Vogl, T.; Roth, J.; Salvermoser, M.; Dietzel, S.; Slak Rupnik, M.; Marr, C.; Walzog, B.; Sperandio, M.; Pruenster, M.
Abstract
S100A8/A9 is an endogenous alarmin secreted by myeloid cells during many acute and chronic inflammatory disorders. Despite increasing evidence of the proinflammatory effects of extracellular S100A8/A9, little is known about its intracellular function. Here, we show that cytosolic S100A8/A9 is indispensable for neutrophil post-arrest modifications during outside-in signaling under flow conditions in vitro and neutrophil recruitment in vivo, independent of its extracellular functions. Mechanistically, genetic deletion of S100A9 in mice caused dysregulated Ca2+ signatures in activated neutrophils resulting in reduced Ca2+ availability at the formed LFA-1/F-actin clusters with defective β2 integrin outside-in signaling during post-arrest modifications. Consequently, we observed impaired cytoskeletal rearrangement, cell polarization, and spreading, as well as cell protrusion formation in S100a9-/- compared to wildtype (WT) neutrophils, making S100a9-/- cells more susceptible to detach under flow, thereby preventing efficient neutrophil recruitment and extravasation into inflamed tissue.
Keywords: LFA-1 integrin clustering; acute inflammation; calcium signaling; immunology; inflammation; intracellular S100A8/A9; intracellular signaling; mouse; neutrophil recruitment.