Pharmacophore Pattern Identification of Tachykinin Receptor Selective Peptide Agonists: Implications in Receptor Selectivity

Dike, Anjali; Chandrashekaran, Indu R.; Mantha, Anil K.; Baquer, Najma Zaheer; Cowsik, Sudha M.

doi:10.3844/ajbbsp.2007.180.186

Cited by 2 publications

(3 citation statements)

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“…The docking data further correlate well with the pharmacophore pattern proposed by us for NK-2 agonists, 40 and a pharmacophore pattern complementarity has been observed in the ligand-receptor complex, wherein the aromatic side chain of Phe 6 is found to closely interact with an aromatic microdomain in the NK-2 receptor, and hydrophobic Leu 9 and Met 10 are found to interact with hydrophobic residues of the receptor (Figure 1). This is further in accordance with the hypothesis that the binding site will be complementary to the distribution of polar/nonpolar atoms of the ligands in their bioactive conformations.…”

Section: Discussionsupporting

confidence: 85%

Molecular Modeling of the Peptide Agonist-Binding Site in a Neurokinin-2 Receptor

Chandrashekaran

Rao

Cowsik

2009

J. Chem. Inf. Model.

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The neurokinin-2 receptor is a member of the rhodopsin family of G-protein coupled receptors, which represents one of the most relevant target families in small-molecule drug design. NK-2 receptors have been implicated in playing a pathophysiological role in asthma. Activation of the NK-2 receptor by its endogenous peptide agonist, tachykinins, is associated with diverse biological responses like bronchoconstriction, vasodepression, and regulation of endocrine functions. Agonist binding to the receptor is a crucial event in initiating signaling, and therefore characterization of the structural features of the agonists can reveal the molecular basis of receptor activation and help in rational design of novel therapeutics. In this study a molecular model for the interaction of the primary ligand NKA with its G-protein coupled receptor neurokinin-2 receptor has been developed. A three-dimensional model for the NK-2 receptor has been generated by homology modeling using rhodopsin as a template. A knowledge based docking of the NMR derived bioactive conformation of NKA to the receptor has been performed utilizing the ligand binding data obtained from the photoaffinity labeling and site-directed mutagenesis studies. The molecular model for the NKA/NK-2 receptor complex thus obtained sheds light on the topographical features of the binding pocket of the receptor and provides atomic insight into the biochemical data currently available for the receptor. The results of the receptor modeling studies have been used to discuss the molecular determinants for NK-2 receptor selectivity.

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Section: Discussionsupporting

confidence: 85%

Molecular Modeling of the Peptide Agonist-Binding Site in a Neurokinin-2 Receptor

Chandrashekaran

Rao

Cowsik

2009

J. Chem. Inf. Model.

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“…The docking data, further, correlate well with the pharmacophore pattern proposed by us for NK 3 agonists, and a pharmacophore pattern complementarity is observed in the ligand–receptor complex (Figure ). This is further in accordance with the hypothesis that the binding site will be complementary to the distribution of polar/nonpolar atoms of the ligands in their bioactive conformations.…”

Section: Discussionsupporting

confidence: 85%

“…The key peptide residues F6, L9, and M10, identified as being important for pharmacological function as well as being identified in our study as pharmacophore points, 66 were found to have significant interactions with the NK 3 receptor. The pharmacophore pattern complementarity is observed for the NK 3 /NKB complex with the three hydrophobic pharmacophores of NKB being bound to three predominantly hydrophobic pockets of the receptor.…”

Section: ' Resultsmentioning

confidence: 56%

Molecular Modeling of Neurokinin B and Tachykinin NK₃ Receptor Complex

Ganjiwale

Rao

Cowsik

2011

J. Chem. Inf. Model.

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The tachykinin receptor NK₃ is a member of the rhodopsin family of G-protein coupled receptors. The NK₃ receptor has been regarded as an important drug target due to diverse physiological functions and its possible role in the pathophysiology of psychiatric disorders, including schizophrenia. The NK3 receptor is primarily activated by the tachykinin peptide hormone neurokinin B (NKB) which is the most potent natural agonist for the NK₃ receptor. NKB has been reported to play a vital role in the normal human reproduction pathway and in potentially life threatening diseases such as pre-eclampsia and as a neuroprotective agent in the case of neurodegenerative diseases. Agonist binding to the receptor is a critical event in initiating signaling, and therefore a characterization of the structural features of the agonists can reveal the molecular basis of receptor activation and help in rational design of novel therapeutics. In this study a molecular model for the interaction of the primary ligand NKB with its G-protein coupled receptor NK₃ has been developed. A three-dimensional model for the NK₃ receptor has been generated by homology modeling using rhodopsin as a template. A knowledge based docking of the NMR derived bioactive conformation of NKB to the receptor has been performed utilizing limited ligand binding data obtained from photoaffinity labeling and site-directed mutagenesis studies. A molecular model for the NKB-NK₃ receptor complex obtained sheds light on the topographical features of the binding pocket of the receptor and provides insight into the biochemical data currently available for the receptor.

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Pharmacophore Pattern Identification of Tachykinin Receptor Selective Peptide Agonists: Implications in Receptor Selectivity

Cited by 2 publications

References 31 publications

Molecular Modeling of the Peptide Agonist-Binding Site in a Neurokinin-2 Receptor

Molecular Modeling of the Peptide Agonist-Binding Site in a Neurokinin-2 Receptor

Molecular Modeling of Neurokinin B and Tachykinin NK₃ Receptor Complex

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Pharmacophore Pattern Identification of Tachykinin Receptor Selective Peptide Agonists: Implications in Receptor Selectivity

Cited by 2 publications

References 31 publications

Molecular Modeling of the Peptide Agonist-Binding Site in a Neurokinin-2 Receptor

Molecular Modeling of the Peptide Agonist-Binding Site in a Neurokinin-2 Receptor

Molecular Modeling of Neurokinin B and Tachykinin NK3 Receptor Complex

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Molecular Modeling of Neurokinin B and Tachykinin NK₃ Receptor Complex