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StackPR is a new computational approach for large-scale identification of progesterone receptor antagonists using the stacking strategy

Nalini Schaduangrat, Nuttapat Anuwongcharoen, Mohammad Ali Moni, Píetro Lió, Phasit Charoenkwan, Watshara Shoombuatong

2022Scientific Reports24 citationsDOIOpen Access PDF

Abstract

Progesterone receptors (PRs) are implicated in various cancers since their presence/absence can determine clinical outcomes. The overstimulation of progesterone can facilitate oncogenesis and thus, its modulation through PR inhibition is urgently needed. To address this issue, a novel stacked ensemble learning approach (termed StackPR) is presented for fast, accurate, and large-scale identification of PR antagonists using only SMILES notation without the need for 3D structural information. We employed six popular machine learning (ML) algorithms (i.e., logistic regression, partial least squares, k-nearest neighbor, support vector machine, extremely randomized trees, and random forest) coupled with twelve conventional molecular descriptors to create 72 baseline models. Then, a genetic algorithm in conjunction with the self-assessment-report approach was utilized to determine m out of the 72 baseline models as means of developing the final meta-predictor using the stacking strategy and tenfold cross-validation test. Experimental results on the independent test dataset show that StackPR achieved impressive predictive performance with an accuracy of 0.966 and Matthew's coefficient correlation of 0.925. In addition, analysis based on the SHapley Additive exPlanation algorithm and molecular docking indicates that aliphatic hydrocarbons and nitrogen-containing substructures were the most important features for having PR antagonist activity. Finally, we implemented an online webserver using StackPR, which is freely accessible at http://pmlabstack.pythonanywhere.com/StackPR . StackPR is anticipated to be a powerful computational tool for the large-scale identification of unknown PR antagonist candidates for follow-up experimental validation.

Topics & Concepts

StackingIdentification (biology)Computer scienceComputational biologyScale (ratio)Progesterone receptorBioinformaticsBiologyMedicineChemistryInternal medicinePhysicsQuantum mechanicsOrganic chemistryEstrogen receptorCancerBreast cancerBotanyEstrogen and related hormone effectsComputational Drug Discovery MethodsReceptor Mechanisms and Signaling
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