期刊
ACS CHEMICAL NEUROSCIENCE
卷 4, 期 10, 页码 1361-1370出版社
AMER CHEMICAL SOC
DOI: 10.1021/cn400097j
关键词
pLGIC; Cys-loop receptor; inflammatory pain; glycinergic synapse; electrophysiology; protein conformation
资金
- Australian Research Council
- National Health and Medical Research Council of Australia
Inflammatory pain sensitization is initiated by prostaglandin-induced phosphorylation of alpha 3 glycine receptors (GlyRs) that are specifically located in inhibitory synapses on spinal pain sensory neurons. Phosphorylation reduces the magnitude of glycinergic synaptic currents, thereby disinhibiting nociceptive neurons. Although alpha 1 and alpha 3 subunits are both expressed on spinal nociceptive neurons, alpha 3 is a more promising therapeutic target as its sparse expression elsewhere implies a reduced risk of side-effects. Here we compared glycine-mediated conformational changes in alpha 1 and alpha 3 GlyRs to identify structural differences that might be exploited in designing alpha 3-specific analgesics. Using voltage-clamp fluorometry, we show that glycine-mediated conformational changes in the extracellular M2-M3 domain were significantly different between the two GlyR isoforms. Using a chimeric approach, we found that structural variations in the intracellular M3-M4 domain were responsible for this difference. This prompted us to test the hypothesis that phosphorylation of S346 in alpha 3 GlyR might also induce extracellular conformation changes. We show using both voltage-clamp fluorometry and pharmacology that Ser346 phosphorylation elicits structural changes in the alpha 3 glycine-binding site. These results provide the first direct evidence for phosphorylation-mediated extracellular conformational changes in pentameric ligand-gated ion channels, and thus suggest new loci for investigating how phosphorylation modulates structure and function in this receptor family. More importantly, by demonstrating that phosphorylation alters alpha 3 GlyR glycine-binding site structure, they raise the possibility of developing analgesics that selectively target inflammation-modulated GlyRs.
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