Abstract
Heptahelical receptor coupling selectivity to G-proteins is controlled by a large contact area that involves several portions of the receptor and each subunit of the G-protein. In the G-protein alpha subunit, the C-terminal 5 residues, the N terminus, and the alpha N-beta 1 and alpha 4-alpha 5 loops play important roles. On the receptor side, both the second and third (i2 and i3) intracellular loops as well as the C-terminal tail probably contact these different regions of the G-protein. It is now accepted that the C terminus of the alpha subunit binds in a cavity formed by the i2 and i3 loops. Among the various G-protein-coupled receptors (GPCRs), class III receptors that include metabotropic glutamate (mGlu) receptors greatly differ from the rhodopsin-like GPCRs, but the contact zone between these receptors and the G-protein is less understood. The C terminus of the alpha subunit has been shown to play a pivotal role in the selective recognition of class III GPCRs. Indeed, the mGlu2 and mGlu4 and -8 receptors can discriminate between alpha subunits that differ at the level of their C-terminal end only (such as Gqo and Gqz). Here, we examine the role of the i2 loop of mGluRs in the selective recognition of this region of the alpha subunit. To that aim, we analyzed the coupling properties of mGlu2 and mGlu4 or -8 receptors and chimeras containing the i2 loop of the converse receptor to G-protein alpha subunits that only differ by their C termini (Gqo,Gqz, and their point mutants). Our data demonstrate that the central portion of the i2 loop is responsible for the selective recognition of the C-terminal end of the alpha subunit, especially the residue on position -4. These data are consistent with the proposal that the C-terminal end of the G-protein alpha subunit interacts with residues in a cavity formed by the i2 and i3 loops in class III GPCRs, as reported for class I GPCRs.
Highlights
By their C termini (Gqo, Gqz, and their point mutants)
This latter region end of the ␣ subunit, especially the residue on position ؊4. is involved in the coupling selectivity, probably by interacting. These data are consistent with the proposal that the C- directly with either class I receptors terminal end of the G-protein ␣ subunit interacts with residues in a cavity formed by the i2 and i3 loops in class III GPCRs, as reported for class I GPCRs
Differential Coupling of Gqo and Gqz and Their Ϫ4 Point Mutants to mGlu4, mGlu8, and mGlu2 Receptors—Many Gi/ocoupled GPCRs have been shown to activate chimeric G-proteins corresponding to G␣q in which the C-terminal 5 residues are replaced by those of either G␣i2, G␣o, or G␣z
Summary
Materials—Chemicals including glutamate were obtained from Sigma, unless otherwise indicated. The plasmids expressing mGlu receptor subunits and their chimeras were described previously [12]. The coding sequence after the MluI site was introduced in place of the equivalent mGlu coding sequence in the pRKG5-NHA or pRKG5-Nmyc described previously [32] Using this strategy, the mGlu and mGlu receptors were tagged with an HA epitope, whereas both HA and c-Myc mGlu receptors were generated. Immunofluorescence Assay on Non-permeabilized Cells—The cells were cultured and transfected with wild-type and chimeric mGlu receptors as described previously. The day after transfection, cells immobilized on coverslips were washed twice with PBS (phosphate-buffered saline) at 37 °C. After washing three times with PBS-glycin (0.1 M), coverslips were incubated with secondary antibody (CyTM3-conjugated AffiniPure goat anti-mouse IgG, Jackson ImmunoResearch Laboratories) diluted 1⁄1000 in PBS-gelatin. Pictures were taken using a fluorescent microscope the day
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