Residues within transmembrane segment M2 determine chloride conductance of glycine receptor homo- and hetero-oligomers.

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We have expressed glycine receptor (GlyR) alpha and beta subunit cDNAs in HEK-293 cells to study the functional properties of homo- versus hetero-oligomeric GlyR channels. Dose-response curves of whole-cell currents in cells expressing alpha 1 subunits revealed an average Hill coefficient of h = 4.2. Co-expression with the beta subunit markedly increased glycine-gated whole-cell currents, which now exhibited a mean Hill coefficient of only h = 2.5. For alpha 1, alpha 2 and alpha 3 homo-oligomers, the main-state single-channel conductances were 86, 111 and 105 pS, respectively, recorded at symmetrical Cl- concentrations of 145 mM. The mutant alpha 1 G221A gave rise to a main-state of 107 pS. This indicates that the main-state of alpha homo-oligomers depends on residue 221 which is located within transmembrane segment M2. Importantly, the main-state conductances of alpha 1/beta, alpha 2/beta and alpha 3/beta hetero-oligomers were only 44, 54 and 48 pS, respectively. The latter values are similar to those found in spinal neurons, suggesting that native GlyRs are predominantly alpha/beta hetero-oligomers. Co-expression of alpha 1 with mutant beta subunits revealed that residues within and close to segment M2 of the beta subunit determine the conductance differences between homo- and hetero-oligomers.

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