Stoichiometry and arrangement of heteromeric olfactory cyclic nucleotide-gated ion channels

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FONTE

The National Academy of Sciences

RESUMO

Native cylic nucleotide-gated (CNG) channels are composed of α and β subunits. Olfactory CNG channels were expressed from rat cDNA clones in Xenopus oocytes and studied in inside-out patches. Using tandem dimers composed of linked subunits, we investigated the stoichiometry and arrangement of the α and β subunits. Dimers contained three subunit types: αwt, βwt, and αm. The αm subunit lacks an amino-terminal domain that greatly influences gating, decreasing the apparent affinity of the channel for ligand by 9-fold, making it a reporter for inclusion in the tetramer. Homomeric channels from injection of αwtαwt dimers and from αwt monomers were indistinguishable. Channels from injection of αwtαm dimers had apparent affinities 3-fold lower than αwt homomultimers, suggesting a channel with two αwt and two αm subunits. Channels from coinjection of αwtαwt and ββ dimers were indistinguishable from those composed of α and β monomers and shared all of the characteristics of the α+β phenotype of heteromeric channels. Coinjection of αwtαm and ββ dimers yielded channels also of the α+β phenotype but with an apparent affinity 3-fold lower, indicating the presence of αm in the tetramer and that α+β channels have adjacent α-subunits. To distinguish between an α-α-α-β and an α-α-β-β arrangement, we compared apparent affinities for channels from coinjection of αwtαwt and βαwt or αwtαwt and βαm dimers. These channels were indistinguishable. To further argue against an α-α-α-β arrangement, we quantitatively compared dose–response data for channels from coinjection of αwtαm and ββ dimers to those from α and β monomers. Taken together, our results are most consistent with an α-α-β-β arrangement for the heteromeric olfactory CNG channel.

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