Vytautas Raskevicius , Visvaldas Kairys 1 Show Affiliations »
Abstract
BACKGROUND: Design of isoform-specific inhibitors is a major challenge in the new therapeutic agents development. METHODS: The article describes the development of a robust selectivity for CA XII QSAR and 3DQSAR models of 40 benzenesulfonamide derivatives bearing pyrimidine moieties using PHASE module of Schrödinger for 3D-QSAR or E-DRAGON and R software for 2D-QSAR. Two QSAR protocols were explored: traditional (affinity) and selectivity (affinity ratio) based. RESULTS: A total of 25 2D and 3D-QSAR models were developed using a training set of 30 compounds using the two protocols for 6 CA isoforms. A new ad hoc descriptor T(OH..Cl) was created targeting CA XII affinity. Satisfactory results were obtained in terms of model quality expressed statistically as F, R2 and R2ADJ. Developed models were analyzed using different statistical validation techniques, both by using the Leave One Out (LOO) criterion, and by applying a model on a test set. The Applicability Domains of the 2D-QSAR models were determined. Two PHASE (affinity and selectivity) 3D-QSAR models were rationalized by manual docking of the ligands into the X-ray crystal structures. The affinity and selectivity based protocols were compared. CONCLUSION: This study provides insights for designing sulfonamide compounds with a better isoform selectivity. Copyright© Bentham Science Publishers; For any queries, please email at epub@benthamscience.org.
BACKGROUND: Design of isoform-specific inhibitors is a major challenge in the new therapeutic agents development. METHODS: The article describes the development of a robust selectivity for CA XII QSAR and 3DQSAR models of 40 benzenesulfonamide derivatives bearing pyrimidine moieties using PHASE module of Schrödinger for 3D-QSAR or E-DRAGON and R software for 2D-QSAR. Two QSAR protocols were explored: traditional (affinity) and selectivity (affinity ratio) based. RESULTS: A total of 25 2D and 3D-QSAR models were developed using a training set of 30 compounds using the two protocols for 6 CA isoforms. A new ad hoc descriptor T(OH..Cl) was created targeting CA XII affinity. Satisfactory results were obtained in terms of model quality expressed statistically as F, R2 and R2ADJ. Developed models were analyzed using different statistical validation techniques, both by using the Leave One Out (LOO) criterion, and by applying a model on a test set. The Applicability Domains of the 2D-QSAR models were determined. Two PHASE (affinity and selectivity) 3D-QSAR models were rationalized by manual docking of the ligands into the X-ray crystal structures. The affinity and selectivity based protocols were compared. CONCLUSION: This study provides insights for designing sulfonamide compounds with a better isoform selectivity. Copyright© Bentham Science Publishers; For any queries, please email at epub@benthamscience.org.
Entities: Chemical
Gene
Keywords:
3D-QSAR; E-DRAGON; QSAR; benzensulfonamide; carbonic anhydrase; drug design; phase; specificity.
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Year: 2017
PMID: 27897106 DOI: 10.2174/1573409912666161129153820
Source DB: PubMed Journal: Curr Comput Aided Drug Des ISSN: 1573-4099 Impact factor: 1.606