Novel benzo[d]oxazol-2(3H)-one derivatives were designed and synthesized, and their affinities against σ receptors were evaluated. On the basis of 31 compounds, a three-dimensional pharmacophore model for the σ1 receptor binding site was developed using the Catalyst 4.9 software package. The best 3D pharmacophore hypothesis, consisting of one positive ionizable, one hydrogen bond acceptor, two hydrophobic aromatic, and one hydrophobic features provided a 3D-QSAR model with a correlation coefficient of 0.89. The best hypothesis was also validated by three independent methods, i.e., the Fisher randomization test included in the CatScramble functionality of Catalyst, the leave-one-out test, and activity prediction of an additional test set. The achieved results will allow researchers to use this 3D pharmacophore model for the design and synthesis of a second generation of high affinity σ1 ligands, as well as to discover other lead compounds for this class of receptors.

Synthesis, biological evaluation, and three-dimensional in silico pharmacophore model for sigma1 receptor ligand based on a series of benzo[d]oxazol-2(3H)-one derivatives

ZAMPIERI, DANIELE;MAMOLO, MARIA GRAZIA;LAURINI, ERIK;FLORIO, CHIARA;ZANETTE, CATERINA;FERMEGLIA, MAURIZIO;POSOCCO, PAOLA;PANENI, Maria Silvia;PRICL, SABRINA;VIO, LUCIANO
2009-01-01

Abstract

Novel benzo[d]oxazol-2(3H)-one derivatives were designed and synthesized, and their affinities against σ receptors were evaluated. On the basis of 31 compounds, a three-dimensional pharmacophore model for the σ1 receptor binding site was developed using the Catalyst 4.9 software package. The best 3D pharmacophore hypothesis, consisting of one positive ionizable, one hydrogen bond acceptor, two hydrophobic aromatic, and one hydrophobic features provided a 3D-QSAR model with a correlation coefficient of 0.89. The best hypothesis was also validated by three independent methods, i.e., the Fisher randomization test included in the CatScramble functionality of Catalyst, the leave-one-out test, and activity prediction of an additional test set. The achieved results will allow researchers to use this 3D pharmacophore model for the design and synthesis of a second generation of high affinity σ1 ligands, as well as to discover other lead compounds for this class of receptors.
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11368/2287384
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