Structure-Based Optimization of Azole Antifungal Agents by CoMFA, CoMSIA, and Molecular Docking

Chunquan Sheng(Second Military Medical University), Wannian Zhang(Second Military Medical University), Haitao Ji(Second Military Medical University), Min Zhang(Second Military Medical University), Yunlong Song(Second Military Medical University), Hui Xu(Second Military Medical University), Jie Zhu(Second Military Medical University), Zhenyuan Miao(Second Military Medical University), Qingfen Jiang(Second Military Medical University), Jianzhong Yao(Second Military Medical University), Youjun Zhou(Second Military Medical University), Jü Zhu(Second Military Medical University), Jiaguo Lü(Second Military Medical University)
Journal of Medicinal Chemistry
March 22, 2006
10.1021/jm051211n
Cited by 182

Abstract

In a continuing effort to develop highly potent azole antifungal agents, the three-dimensional quantitative structure-activity relationship methods, CoMFA and CoMSIA, were applied using a set of novel azole antifungal compounds. The binding mode of the compounds at the active site of lanosterol 14alpha-demethylase was further explored using the flexible docking method. Various hydrophobic, van der Waals, pi-pi stacking, and hydrogen bonding interactions were observed between the azoles and the enzyme. Based on results from the molecular modeling, a receptor-based pharmacophore model was established to guide the rational optimization of the azole antifungal agents. Thus, a total of 57 novel azoles were designed and synthesized by a three-step optimization process. In vitro antifungal assay revealed that the antifungal activities of these novel azoles were greatly improved, which confirmed the reliability of the model from molecular modeling.

Related Papers

Comparative molecular field analysis (CoMFA). 1. Effect of shape on binding of steroids to carrier proteins
Richard D. Cramer, David E. Patterson, Jeffrey D. Bunce|Journal of the American Chemical Society|1988|3.9k
Molecular Similarity Indices in a Comparative Analysis (CoMSIA) of Drug Molecules to Correlate and Predict Their Biological Activity
G. Klebe, Ute Abraham, Thomas Mietzner|Journal of Medicinal Chemistry|1994|1.8k
High-resolution crystal structure of cytochrome P450cam
T.L. Poulos, B.C. Finzel, Andrew Howard|Journal of Molecular Biology|1987|1.4k
Amphotericin B: 30 Years of Clinical Experience
Harry A. Gallis, Richard H. Drew, William W. Pickard|Clinical Infectious Diseases|1990|1k
Crystal Structure of Hemoprotein Domain of P450BM-3, a Prototype for Microsomal P450's
Kurumbail G. Ravichandran, Sekhar Boddupalli, Charles A. Hasermann et al.|Science|1993|878