Affiliation:
1. Department of Pharmacy University of Salerno Via Giovanni Paolo II 132 Fisciano 84084 Italy
2. PhD Program in Drug Discovery and Development Department of Pharmacy University of Salerno Via Giovanni Paolo II 132 Fisciano 84084 Italy
3. Institute of Biomolecular Chemistry (ICB) Consiglio Nazionale delle Ricerche (CNR) Via Campi Flegrei 34 Pozzuoli I-80078 Italy
4. Department of Biosciences and Territory University of Molise C.da Fonte Lappone Pesche 86090 Italy
5. Department of Pharmaceutical/Medicinal Chemistry Institute of Pharmacy Friedrich Schiller University Philosophenweg 14 Jena, 07743 Germany
Abstract
AbstractComputational techniques accelerate drug discovery by identifying bioactive compounds for specific targets, optimizing molecules with moderate activity, or facilitating the repositioning of inactive items onto new targets. Among them, the Inverse Virtual Screening (IVS) approach is aimed at the evaluation of one or a small set of molecules against a panel of targets for addressing target identification. In this work, a focused library of benzothiazole‐based compounds was re‐investigated by IVS. Four items, originally synthesized and tested on bromodomain‐containing protein 9 (BRD9) but yielding poor binding, were critically re‐analyzed, disclosing only a partial fit with 3D structure‐based pharmacophore models, which, in the meanwhile, were developed for this target. Afterwards, these compounds were re‐evaluated through IVS on a panel of proteins involved in inflammation and cancer, identifying soluble epoxide hydrolase (sEH) as a putative interacting target. Three items were subsequently confirmed as able to interfere with sEH activity, leading to inhibition percentages spanning from 70 % up to 30 % when tested at 10 μM. Finally, one benzothiazole‐based compound emerged as the most promising inhibitor featuring an IC50 in the low micromolar range (IC50=6.62±0.13 μM). Our data confirm IVS as a predictive tool for accelerating the target identification and repositioning processes.