Fig. 5
Biphasic astrocytic glutamate release occurring in both a Ca2+-dependent and -independent manner. a Imaging astrocytic glutamate release with green fluorescent sensor iGluSnFR expressed on the outer face of cell membrane. b CTR: repetitive fluorescence signals upon glutamate exposure. c Dose–response curve for astrocyte-expressed iGluSnR (n = 6–11 cells per concentration). d Dual-color imaging of astrocytic Ca2+ by the red sensor GECO-R and glutamate release by iGluSnFR. Right, ATP application evoked Ca2+ rise and glutamate release, which were both suppressed by BAPTA chelation of intracellular Ca2+. e Aβ25–35 triggered a biphasic glutamate release, which started prior to Ca2+ rise and was further increased during Ca2+ elevation. f, g Chelating astrocytic Ca2+ with BAPTA partially reduced Aβ-induced glutamate release, confirming its occurrence in both Ca2+-independent and -dependent manner (n = 10–11 cells per condition). Scale bars, 5 µm