1. The neurokinin-1 and neurokinin-2 receptor binding sites of MDL103,392 differ
- Author
-
Elizabeth Keene, M. Motasim Billah, Boonlert Cheewatrakoolpong, Nicholas J. Murgolo, Scott Greenfeder, John C. Anthes, and Robert W. Egan
- Subjects
Models, Molecular ,Pyrrolidines ,Protein Conformation ,Stereochemistry ,Clinical Biochemistry ,B-cell receptor ,Pharmaceutical Science ,Transfection ,Biochemistry ,Neurokinin-1 Receptor Antagonists ,Drug Discovery ,Animals ,Humans ,Pyrroles ,5-HT5A receptor ,GABBR1 ,Receptor ,Molecular Biology ,Protease-activated receptor 2 ,Binding Sites ,Chemistry ,Organic Chemistry ,Receptors, Neurokinin-2 ,Receptors, Neurokinin-1 ,Interleukin-13 receptor ,Recombinant Proteins ,Kinetics ,Transmembrane domain ,COS Cells ,Mutagenesis, Site-Directed ,Molecular Medicine ,Tachykinin receptor - Abstract
Several small molecule non-peptide antagonists of the NK-1 and NK-2 receptors have been developed. Mutational analysis of the receptor protein sequence has led to the conclusion that the binding site for these non-peptide antagonists lies within the bundle created by transmembrane domains IV-VII of the receptor and differs from the binding sites of peptide agonists and antagonists. The current investigation uses site-directed mutagenesis of the NK-1 and NK-2 receptors to elucidate the amino acids that are important for binding and functional activity of the first potent dual NK-1/NK-2 antagonist MDL103,392. The amino acids found to be important for MDL103,392 binding to the NK-1 receptor are Gln-165, His-197, Leu-203, Ile-204, Phe-264, His-265 and Tyr-272. The amino acids found to be important for MDL103,392 binding to the NK-2 receptor are Gln-166, His-198, Tyr-266 and Tyr-289. While residues in transmembrane (TM) domains IV and V are important in both receptors (Gln-165/166 and His-197/198), residues in TM V and VI are more important for the NK-1 receptor and residues in TM VII play a more important role in the NK-2 receptor. These data are the first report of the analysis of the binding site of a dual tachykinin receptor antagonist and indicate that a single compound (MDL103,392) binds to each receptor in a different manner despite there being a high degree of homology in the transmembrane bundles. In addition, this is the first report in which a model for the binding of a non-peptide antagonist to the NK-2 receptor is proposed.
- Published
- 1999