Expanding the Accessible Chemical Space of SIRT2 Inhibitors through Exploration of Binding Pocket Dynamics

Djoković, Nemanja; Rahnasto-Rilla, Minna; Srdiċ-Rajiċ, Tatjana; Lahtela‐Kakkonen, Maija; Nikolic, Katarina

doi:10.1021/acs.jcim.2c00241

Cited by 8 publications

(13 citation statements)

References 102 publications

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“…Early recognition is the direct reflection of the models’ ability to rank active molecules very early in an ordered list. Herein, we used ROC EF 0.5%, 1%, 2%, and 5%, which quantified the area covered by the curve at 0.5%, 1%, 2%, and 5% of the screened false positives, respectively [ 20 , 46 ]. With the dataset containing a significantly larger number of chemically diverse inactive compounds, the RF:ECFP4 binary model stood out as the model with the greatest predictive power ( Table 4 and Figure 5 ).…”

Section: Resultsmentioning

confidence: 99%

“…Recently described pharmacological advantages of selective SIRT2 inhibition over non-selective inhibition of other isoforms of the sirtuin family, particularly sirtuin 1 (SIRT1) and sirtuin 3 (SIRT3), positioned selectivity as one of the most important objectives in development of novel SIRT2 inhibitors [ 19 ]. Furthermore, a recent study indicated that the complex conformational behavior of SIRT2 in interaction with inhibitors represents one of the major obstacles in the discovery of novel inhibitors through structure-based computer-aided drug-design (CADD) approaches [ 20 ]. However, years of searching for novel SIRT2 inhibitors resulted in large and diverse datasets that could greatly benefit ligand-based CADD approaches relying on specific machine-learning techniques.…”

Section: Introductionmentioning

confidence: 99%

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SIRT2i_Predictor: A Machine Learning-Based Tool to Facilitate the Discovery of Novel SIRT2 Inhibitors

et al. 2023

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A growing body of preclinical evidence recognized selective sirtuin 2 (SIRT2) inhibitors as novel therapeutics for treatment of age-related diseases. However, none of the SIRT2 inhibitors have reached clinical trials yet. Transformative potential of machine learning (ML) in early stages of drug discovery has been witnessed by widespread adoption of these techniques in recent years. Despite great potential, there is a lack of robust and large-scale ML models for discovery of novel SIRT2 inhibitors. In order to support virtual screening (VS), lead optimization, or facilitate the selection of SIRT2 inhibitors for experimental evaluation, a machine-learning-based tool titled SIRT2i_Predictor was developed. The tool was built on a panel of high-quality ML regression and classification-based models for prediction of inhibitor potency and SIRT1-3 isoform selectivity. State-of-the-art ML algorithms were used to train the models on a large and diverse dataset containing 1797 compounds. Benchmarking against structure-based VS protocol indicated comparable coverage of chemical space with great gain in speed. The tool was applied to screen the in-house database of compounds, corroborating the utility in the prioritization of compounds for costly in vitro screening campaigns. The easy-to-use web-based interface makes SIRT2i_Predictor a convenient tool for the wider community. The SIRT2i_Predictor’s source code is made available online.

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Section: Resultsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

SIRT2i_Predictor: A Machine Learning-Based Tool to Facilitate the Discovery of Novel SIRT2 Inhibitors

et al. 2023

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“…Herein, we used ROC EF 0.5%, 1%, 2% and 5% which quantify the area covered by the curve at the 0.5%, 1%, 2% and 5% of the screened false positives. 44,52 With dataset containing significantly larger amount of chemically diverse inactive compounds, RF:ECFP4 binary model stood out as the model with the greatest predictive power (Table 4 and Figure 4). In the heavily disbalanced decoys set, RF:ECFP4 binary model displayed better sensitivity, specificity, precision and robustness but also better early recognition.…”

Section: Binary Classification Modelsmentioning

confidence: 99%

“…The novel structure-based virtual screening (SBVS) approach relying on alternative conformational states of SIRT2 discovered through computationally intensive simulations of the binding pocket dynamics was recently published by our group. 44 Utilization of alternative binding pocket conformational states, besides showing significant improvements in validation metrics compared with single structure approach, resulted in expansion of chemical space coverage of virtual hits. In order to test SIRT2i_Predictor's ability to expand the chemical space of virtual hits, we have repeated prospective SBVS campaign from the mentioned paper encompassing around 200000 compounds from the SPECS database.…”

Section: Benchmarking Sirt2i-finder Against Structure-based Vs Approachmentioning

confidence: 99%

“…41 For interpretation of atomic contributions and graphical interpretation of structure-activity relationships, similarity maps were build according to the RDKit implementation of the approach proposed by Riniker et al 42 Chemical space projections of virtual hits from virtual screening of SPECS database 43 were calculated using self-organizing maps as described in previous work. 44 In vitro enzymatic evaluation of potency for in-house library of compounds was performed using the fluorometric assay as described elsewhere. 45 Percent of inhibition for all compounds were evaluated in triplicates at concentration of 200 µM.…”

Section: Models Building and Evaluationmentioning

confidence: 99%

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SIRT2i_Predictor: A machine learning-based tool to facilitate the discovery of novel SIRT2 inhibitors

Djoković

Rahnasto-Rilla

Lougiakis

et al. 2022

Preprint

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Selective sirtuin 2 (SIRT2) inhibitors hold therapeutic promise for treatment of wide range of age-related diseases. Despite promising preclinical results, none of the SIRT2 inhibitors have reached clinical trials. In order to facilitate development of novel SIRT2 inhibitors, a machine learning based tool titled SIRT2i_Predictor was developed through this work. The main utility of SIRT2i_Predictor is to support virtual screening (VS) campaigns and facilitate the selection of candidates for in vitro and in vivo evaluation. Appealing web-based interface which allows visualization of structure-activity relationships makes SIRT2i_Predictor a valuable tool in the lead optimization projects as well. The tool was built on panel of high-quality machine learning regression-based and binary classification-based models for prediction of inhibitors potency, as well as multiclass classification-based models for predictions of inhibitors SIRT1-3 isoform selectivity. The regression and classification structure-activity relationship models were created for 1797 publicly available compounds by exploring combinations of 5 machine learning algorithms and 4 molecular representations. SIRT2i_Predictor was demonstrated to be able to screen around 200000 compounds in matters of minutes with comparable chemical space coverage to the structure-based VS. The tool was applied in screening of in-house database of compounds further corroborating the utility in prioritization of compounds for costly in vitro screening campaigns. The code of SIRT2i_Predictor is made available at https://github.com/echonemanja/SIRT2i_Predictor.

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No dance, no partner! A tale of receptor flexibility in docking and virtual screening

Basciu

Callea

Motta

et al. 2022

Virtual Screening and Drug Docking

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Expanding the Accessible Chemical Space of SIRT2 Inhibitors through Exploration of Binding Pocket Dynamics

Cited by 8 publications

References 102 publications

SIRT2i_Predictor: A Machine Learning-Based Tool to Facilitate the Discovery of Novel SIRT2 Inhibitors

SIRT2i_Predictor: A Machine Learning-Based Tool to Facilitate the Discovery of Novel SIRT2 Inhibitors

SIRT2i_Predictor: A machine learning-based tool to facilitate the discovery of novel SIRT2 inhibitors

No dance, no partner! A tale of receptor flexibility in docking and virtual screening

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