Review Article

A Central Role for ATP Signalling in Glial Interactions in the CNS

Author(s): Andrea Rivera, Ilaria Vanzulli and Arthur M. Butt

Volume 17, Issue 16, 2016

Page: [1829 - 1833] Pages: 5

DOI: 10.2174/1389450117666160711154529

Price: $65

Abstract

The purine ATP has a prominent regulatory role in CNS function and pathology due to its actions on glial cells - microglia, astrocytes and oligodendrocytes. ATP serves as an apparently ubiquitous ‘gliotransmitter’ that is released by astrocytes and other cells to activate purine receptors on neighbouring cells. In pathology, the release of ATP mediates both tissue damage and repair by its direct effects on glial cell integrity and survival. The actions of ATP on glia are mediated via a wide range of receptors, broadly divided into ionotropic P2X and metabotropic (G-protein coupled receptors (GPCR)) P2Y receptors, of which there are multiple subtypes (P2X1-P2X7 and P2Y1-P2Y14). ATP-mediated interactions between astrocytes and microglia are at the centre of immune responses in the CNS, with prominent roles for the P2X4, P2X7, P2Y1, P2Y6 and P2Y12 receptor subtypes. In oligodendrocytes, P2X7 and P2Y1 receptor subtypes have a bipartite function in respectively mediating oligodendrocyte destruction and protection. Purine receptors mediate glial pathology, with prominent roles in ischemia, neuroinflammation, Multiple Scelerosis, neuropathic pain and traumatic injury. Notably, glial ATP signalling may be altered with ageing and is implicated in impaired myelination and immunity in Alzheimer’s disease. Hence, glial purine receptors provide potential therapeutic targets in multiple neuropathologies, but the ‘Jeckyll and Hyde’ nature of purine signalling underscores the importance of further research and a comprehensive understanding of the roles of the different purine receptors in mediating tissue damage and repair.

Keywords: Glia, astrocyte, oligodendrocytes, ATP, purine receptor.

Graphical Abstract


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