Unbinding of nicotine from the acetylcholine binding protein: Steered molecular dynamics simulations.

LIU X; XU Y; WANG X; BARRANTES FJ; JIANG H

JOURNAL OF PHYSICAL CHEMISTRY B

American Chemical Society

Lugar: New York; Año: 2008 vol. 112 p. 4087 - 4093

1089-5647

Liu, X., Xu, Y., Wang, X., Barrantes, F.J. y Jiang, H. (2008). Unbinding of nicotine from the acetylcholine binding protein: Steered molecular dynamics simulations J. Phys. Chem. B 112, 4087-4093. RESUMEN The ligand binding/unbinding process is critical to our understanding of the pharmacology of both the nicotinic acetylcholine receptor (nAChR) and the acetylcholine binding protein (AChBP). Steered molecular dynamics simulations were performed to learn about the unbinding process of the full agonist nicotine. Three different pulling models were designed to investigate the possible binding/unbinding pathways: radial and tangent models, and also a mixed model. Of the three, the tangent pulling model finally failed to dissociate nicotine from the ligand binding pocket. The efficiency of the pulling force profiles was superior, and the opening of the C-loop was smaller in the mixed pulling model than that in the radial model. The most favorable pathway for the cholinergic agonist nicotine to enter or leave the binding pocket is through the principal binding side, following a curvilinear track. Noticeably, it has been seen that the unbinding of the nicotine is concomitant with a global rotation of the protein-ligand complex which could be caused by the interactions of the ligand with protein at the tangent direction.