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  • Structural basis for ligand selectivity of heteromeric olfactory cyclic nucleotide-gated channels.

Structural basis for ligand selectivity of heteromeric olfactory cyclic nucleotide-gated channels.

Biophysical journal (2000-04-25)
M S Shapiro, W N Zagotta
ABSTRACT

In vertebrate olfactory receptors, cAMP produced by odorants opens cyclic nucleotide-gated (CNG) channels, which allow Ca(2+) entry and depolarization of the cell. These CNG channels are composed of alpha subunits and at least two types of beta subunits that are required for increased cAMP selectivity. We studied the molecular basis for the altered cAMP selectivity produced by one of the beta subunits (CNG5, CNCalpha4, OCNC2) using cloned rat olfactory CNG channels expressed in Xenopus oocytes. Compared with alpha subunit homomultimers (alpha channels), channels composed of alpha and beta subunits (alpha+beta channels) were half-activated (K(1/2)) by eightfold less cAMP and fivefold less cIMP, but similar concentrations of cGMP. The K(1/2) values for heteromultimers of the alpha subunit and a chimeric beta subunit with the alpha subunit cyclic nucleotide-binding region (CNBR) (alpha+beta-CNBRalpha channels) were restored to near the values for alpha channels. Furthermore, a single residue in the CNBR could account for the altered ligand selectivity. Mutation of the methionine residue at position 475 in the beta subunit to a glutamic acid as in the alpha subunit (beta-M475E) reverted the K(1/2,cAMP)/K(1/2,cGMP) and K(1/2, cIMP)/K(1/2,cGMP) ratios of alpha+beta-M475E channels to be very similar to those of alpha channels. In addition, comparison of alpha+beta-CNBRalpha channels with alpha+beta-M475E channels suggests that the CNBR of the beta subunit contains amino acid differences at positions other than 475 that produce an increase in the apparent affinity for each ligand. Like the wild-type beta subunit, the chimeric beta/alpha subunits conferred a shallow slope to the dose-response curves, increased voltage dependence, and caused desensitization. In addition, as for alpha+beta channels, block of alpha+betaCNBRalpha channels by internal Mg(2+) was not steeply voltage-dependent (zdelta approximately 1e(-)) as compared to block of alpha channels (zdelta 2.7e(-)). Thus, the ligand-independent effects localize outside of the CNBR. We propose a molecular model to explain how the beta subunit alters ligand selectivity of the heteromeric channels.

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Inosine 3′:5′-cyclic monophosphate sodium salt, ≥98%