G protein-coupled receptors (GPCRs) are known to exist as oligomers, but there is much uncertainty over the oligomeric size, the number of interacting G proteins and the stability of that interaction. The present approach to these questions has been threefold. Monomers of the M2 muscarinic receptor were purified from Spodoptera frugiperda (Sf9) cells and reconstituted in phospholipid vesicles, where they spontaneously formed tetramers. The size of the reconstituted complex was determined from its electrophoretic mobility after cross-linking and inferred from a quantitative, model-based assessment of cooperative effects in the binding of two muscarinic antagonists: N-methylscopolamine and quinuclidinylbenzilate. Binding of the agonist oxotremorine-M to receptor reconstituted with purified G proteins revealed at least three classes of sites that interconverted from higher to lower affinity upon the addition of guanylylimidotriphosphate (GMP-PNP). The binding properties resemble those of muscarinic receptors in myocardial preparations, thereby implying the existence of tetramers in native tissues. G proteins that copurify with the M2 receptor from cardiac membranes also were found to exist as oligomers, some of which contain both alpha(o) and alpha(i2), and the purified complexes contained receptor and G protein in near-equal amounts. A tetrameric receptor implies a tetramer of G proteins, a conclusion that is supported by the distribution of sites between different states identified in the binding of [35S]GTPgammaS to the purified complex. Covalent adducts of a GPCR fused to a Galpha-subunit provide a model system in which the relationship between receptor and G protein complex is defined with respect to stability and composition. Such a fusion of the M2 receptor and Galpha(i1) underwent a cleavage near the amino terminus of the alpha-subunit, however, flagging the likelihood of similar effects in other such adducts. Truncation of the amino terminus prior to fusion generated a stable product that revealed GMP-PNP-sensitive, biphasic binding of oxotremorine-M and noncompetitive interactions between N-methylscopolamine and quinuclidinylbenzilate. A covalent RG complex therefore exhibits the functional properties of M2 receptors in native systems. These observations are consistent with the notion that signaling through the M2 receptor occurs via cooperative interactions within a stable complex that comprises four receptors and four G proteins.
Identifer | oai:union.ndltd.org:TORONTO/oai:tspace.library.utoronto.ca:1807/33816 |
Date | 05 December 2012 |
Creators | Ma, Amy Wing-Shan |
Contributors | Wells, James W. |
Source Sets | University of Toronto |
Language | en_ca |
Detected Language | English |
Type | Thesis |
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