Differential calcium signalling in neuronal-glial networks

Abstract

Calcium ions are the probably the most ancient, the most universal and omnipresent intracellular signalling molecules, which are involved in regulation of a host of cellular functional reactions. In the nervous system Ca 2+ signalling is intimately involved in information transfer and integration within neural circuits. Local Ca2+ signals or Ca 2+ microdomains control neurotransmitter release; more global Ca 2+ signals regulate synaptic strength and accomplish postsynaptic processing. In the glial syncytium Ca2+ ions provide for glial "Ca2+ excitability", convey long-range signalling by means of propagating Ca2+ waves and control the release of gliotransmitters. Differential Ca2+ signals in various elements of neural circuits represent therefore molecular mechanisms of integration in the nervous system.