Rheumatology, Vol 38, 14-18, Copyright © 1999 by British Society for Rheumatology
R Garcia-Nieto, C Perez, A Checa and F Gago
The cyclooxygenase-2 (COX-2) isoenzyme is a key target for COX-2- selective
non-steroidal anti-inflammatory drugs (NSAIDs). An important difference in
binding of nimesulide compared with non-selective NSAIDs appears to involve
the amino acid at position 523 of the enzyme. Replacement of valine with
isoleucine at this position provides access to a binding site that is
larger in COX-2 than in COX-1. Nimesulide appears to exploit this enlarged
binding site for establishing a number of favourable contacts with the
enzyme that lead to selective inhibition of COX-2. We made these
conclusions from a three-dimensional molecular model of the active site of
human COX-2, constructed using the X-ray coordinates of COX-1 from sheep
seminal vesicles and COX-2 from mouse fibroblasts as templates, with the
aid of sequence alignment methods and molecular modelling techniques. The
resulting model was refined, and the active site was probed for regions of
steric and electrostatic complementarity for ligand binding. Docking
studies were then undertaken with many different nimesulide conformers, a
family of which could establish very favourable interactions with the NSAID
binding site of human COX-2 by exploiting the extra space made available by
the isoleucine/valine replacement. The stability of the resulting complexes
was studied by simulating molecular dynamics.
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Molecular model of the interaction between nimesulide and human cyclooxygenase-2
Departamento de Farmacologia, Universidad de Alcala, Madrid, Spain.
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