Molecular dynamics study of 4-OH-phenylacetyl- D-Y(Me)FQNRPR-NH2 selectivity to V1a receptor
- PMID: 14530927
- DOI: 10.1007/s00894-003-0142-0
Molecular dynamics study of 4-OH-phenylacetyl- D-Y(Me)FQNRPR-NH2 selectivity to V1a receptor
Abstract
G protein-coupled receptors relay diverse extracellular signals into cells via a common mechanism, involving activation of cytosol G proteins. The mechanism underlies the actions of approximately 50% of all drugs. In this work, we focus on simulating three protein-ligand complexes of the neurohypophyseal hormone analog 4-OH-phenylacetyl- D-Y(Me)FQNRPR-NH2 (I) with the human V1a, V2 and oxytocin receptors. The peptideI is a potent selective V1a receptor antagonist. To obtain relaxed models of the complexes, the following techniques were used: docking ofI into the vasopressin V1a, V2 and oxytocin receptor models, optimization of the geometry of the resulting complexes and molecular dynamics in a fully hydrated 1-palmitoyl-2-oleoyl- sn-glycero-3-phosphatidylcholine lipid bilayer. The results of the simulations allow us to draw some conclusions about the ligand selectivity to V1aR.
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