High-throughput analysis of calcium signalling kinetics in astrocytes stimulated with different neurotransmitters.

Astrocytes express a wide range of receptors for neurotransmitters and hormones that are coupled to increases in intracellular Ca(2+) concentration, enabling them to detect activity in both neuronal and vascular networks. There is increasing evidence that astrocytes are able to discriminate between different Ca(2+)-linked stimuli, as the efficiency of some Ca(2+) dependent processes--notably release of gliotransmitters--depends on the stimulus that initiates the Ca(2+) signal. The spatiotemporal complexity of Ca(2+) signals is substantial, and we here tested the hypothesis that variation in the kinetics of Ca(2+) responses could offer a means of selectively engaging downstream targets, if agonists exhibited a "signature shape" in evoked Ca(2+) response.