The mammalian glycine receptor: biology and structure of a neuronal chloride channel protein

Abstract

Glycine is a major inhibitory neurotransmitter in the central nervous system (CNS) of vertebrates and invertebrates. The postsynaptic receptor for this amino acid is an oligomeric glycoprotein which, upon binding of glycine, transiently forms an anion-selective transmembrane channel. Agonist-mediated receptor activation is antagonized by strychnine, a high-affinity ligand of the glycine receptor (GlyR). Biochemical and immunological data show that affinity-purified preparations of the mammalian GlyR contain three polypeptides of M(r) 48,000, 58,000 and 93,000. These polypeptides have different functional properties and/or topologies in the postsynaptic membrane of the glycinergic synapse. The primary sequence of the M(r) 48,000 subunit deduced by cDNA cloning exhibits structural and amino-acid homology to nicotinic acetylcholine and GABA(a) receptor proteins, indicating a common evolutionary relationship between the different neurotransmitter-gated ion channels of excitable membranes. Monoclonal antibodies against the GlyR allow its histochemical localization in different regions of the CNS. GlyR deficiencies have been implicated in the pathogenesis of spasticity and spinal cord degeneration in mouse and man.