Purinergic transmission and transglial signaling between neuron somata in the dorsal root ganglion

Most dorsal root ganglion neuronal somata (NS) are isolated from their neighbours by a satellite glial cell (SGC) sheath. However, some NS are associated in pairs, separated solely by the membrane septum of a common SGC to form a neuron–glial cell–neuron (NGlN) trimer. We reported that stimulation of one NS evokes a delayed, noisy and long‐duration inward current in both itself and its passive partner that was blocked by suramin, a general purinergic antagonist. Here we test the hypothesis that NGlN transmission involves purinergic activation of the SGC. Stimulation of the NS triggered a sustained current noise in the SGC. Block of transmission through the NGlN by reactive blue 2 or thapsigargin, a Ca²⁺ store‐depletion agent, implicated a Ca²⁺ store discharge‐linked P2Y receptor. P2Y2 was identified by simulation of the NGlN‐like transmission by puffing UTP onto the SGC and by immunocytochemical localization to the SGC membrane septum. Block of the UTP effect by BAPTA, an intracellular Ca²⁺ scavenger, supported the involvement of SGC Ca²⁺ stores in the signaling pathway. We infer that transmission through the NGlN trimer involves secretion of ATP from the NS and triggering of SGC Ca²⁺ store discharge via P2Y2 receptors. Presumably, cytoplasmic Ca²⁺ elevation leads to the release of an as‐yet unidentified second transmitter from the glial cell to complete transmission. Thus, the two NS of the NGlN trimer communicate via a ‘sandwich synapse’ transglial pathway, a novel signaling mechanism that may contribute to information transfer in other regions of the nervous system.