Title : Muscarinic acetylcholine receptors: structural basis of ligand binding and G protein coupling - Wess_1995_Life.Sci_56(11-12)_915 |
Author(s) : Wess J , Blin N , Mutschler E , Bluml K |
Ref : Life Sciences , 56(11-12) :915 , 1995 |
Abstract :
Muscarinic acetylcholine receptors (m1-m5) were studied by a combined molecular genetic/pharmacologic approach to elucidate the molecular characteristics of the ligand binding site and of the receptor domains involved in G protein coupling. Site-directed mutagenesis studies of the rat m3 muscarinic receptor suggest that the acetylcholine binding domain is formed by a series of hydrophilic amino acids located in the "upper" half of transmembrane domains (TM) III, V, VI, and VII. Moreover, we showed that mutational modification of a TM VI Asn residue (Asn507 in the rat m3 receptor sequence) which is characteristic for the muscarinic receptor family has little effect on high-affinity acetylcholine binding and receptor activation, but results in dramatic reductions in binding affinities for certain subclasses of muscarinic antagonists. The N-terminal portion of the third intracellular loop (i3) of muscarinic and other G protein-coupled receptors has been shown to play a central role in determining the G protein coupling profile of a given receptor subtype. Insertion mutagenesis studies with the rat m3 muscarinic receptor suggest that this region forms an amphiphilic alpha-helix and that the hydrophobic side of this helix represents an important G protein recognition surface. Further mutational analysis of this receptor segment showed that Tyr254 located at the N-terminus of the i3 loop of the m3 muscarinic receptor plays a key role in muscarinic receptor-induced Gq activation. The studies described here, complemented by biochemical and biophysical approaches, should eventually lead to a detailed structural model of the ligand-receptor-G protein complex. |
PubMedSearch : Wess_1995_Life.Sci_56(11-12)_915 |
PubMedID: 10188793 |
Wess J, Blin N, Mutschler E, Bluml K (1995)
Muscarinic acetylcholine receptors: structural basis of ligand binding and G protein coupling
Life Sciences
56(11-12) :915
Wess J, Blin N, Mutschler E, Bluml K (1995)
Life Sciences
56(11-12) :915