Abstract
Background: Glutaminyl Cyclase (QC) is a novel target in the battle against Alzheimer’s disease, a highly prevalent neurodegenerative disorder. QC inhibitors have the potential to be developed as therapeutically useful anti-Alzheimer’s disease agents.
Methods: Linear and non-linear 2D-Quantitative Structure-Activity Relationship (QSAR) models were developed using Stepwise Multiple Linear Regression (S-MLR) and neural networks. Partial least squares (PLS) method was used to develop a 3D-QSAR model. Also, the developed models were used in virtual screening of the ZINC database to identify potential QC inhibitors.
Results: The 2D neural network model showed superior predictive ability, as demonstrated by the validation parameters R2 = 0.933, Q2 = 0.886 and R2 pred = 0.911. The 3D-QSAR model’s steric and electrostatic fields’ isocontour maps were visualized and revealed important structural requirements associated with good activity. The virtual screening identified six compounds as potentially active QC inhibitors with improved pharmacokinetic profiles.
Conclusion: The developed QSAR models can be used to predict the activity of compounds not yet synthesized and prioritized for their synthesis and biological evaluation. Also, potentially active QC inhibitors have been identified with attractive lead-like properties that can be used to develop anti- Alzheimer’s disease agents.
Keywords: Glutaminyl cyclase, 3D-QSAR, 2D-QSAR, virtual screening, neural networks, molecular interaction fields.
Current Computer-Aided Drug Design
Title:2D- and 3D-QSAR Modeling of Imidazole-Based Glutaminyl Cyclase Inhibitors
Volume: 16 Issue: 6
Author(s): Omar Husham Ahmed Al-Attraqchi and Katharigatta N. Venugopala*
Affiliation:
- Department of Pharmaceutical Sciences, College of Clinical Pharmacy, King Faisal University, Al-Ahsa 31982,Saudi Arabia
Keywords: Glutaminyl cyclase, 3D-QSAR, 2D-QSAR, virtual screening, neural networks, molecular interaction fields.
Abstract:
Background: Glutaminyl Cyclase (QC) is a novel target in the battle against Alzheimer’s disease, a highly prevalent neurodegenerative disorder. QC inhibitors have the potential to be developed as therapeutically useful anti-Alzheimer’s disease agents.
Methods: Linear and non-linear 2D-Quantitative Structure-Activity Relationship (QSAR) models were developed using Stepwise Multiple Linear Regression (S-MLR) and neural networks. Partial least squares (PLS) method was used to develop a 3D-QSAR model. Also, the developed models were used in virtual screening of the ZINC database to identify potential QC inhibitors.
Results: The 2D neural network model showed superior predictive ability, as demonstrated by the validation parameters R2 = 0.933, Q2 = 0.886 and R2 pred = 0.911. The 3D-QSAR model’s steric and electrostatic fields’ isocontour maps were visualized and revealed important structural requirements associated with good activity. The virtual screening identified six compounds as potentially active QC inhibitors with improved pharmacokinetic profiles.
Conclusion: The developed QSAR models can be used to predict the activity of compounds not yet synthesized and prioritized for their synthesis and biological evaluation. Also, potentially active QC inhibitors have been identified with attractive lead-like properties that can be used to develop anti- Alzheimer’s disease agents.
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Cite this article as:
Al-Attraqchi Husham Ahmed Omar and Venugopala N. Katharigatta *, 2D- and 3D-QSAR Modeling of Imidazole-Based Glutaminyl Cyclase Inhibitors, Current Computer-Aided Drug Design 2020; 16 (6) . https://dx.doi.org/10.2174/1573409915666190918150136
DOI https://dx.doi.org/10.2174/1573409915666190918150136 |
Print ISSN 1573-4099 |
Publisher Name Bentham Science Publisher |
Online ISSN 1875-6697 |
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