Litcius/Paper detail

Discovery of novel PARP-1 inhibitors using tandem <i>in silico</i> studies: integrated docking, e-pharmacophore, deep learning based de novo and molecular dynamics simulation approach

Aayushi Bhatnagar, Virendra Nath, Neeraj Kumar, Vipin Kumar

2023Journal of Biomolecular Structure and Dynamics12 citationsDOI

Abstract

Cancer accounts for the majority of deaths worldwide, and the increasing incidence of breast cancer is a matter of grave concern. Poly (ADP-ribose) polymerase-1 (PARP-1) has emerged as an attractive target for the treatment of breast cancer as it has an important role in DNA repair. The focus of the study was to identify novel PARP-1 inhibitors using a blend of tandem structure-based screening (Docking and e-pharmacophore-based screening) and artificial intelligence (deep learning)-based de novo approaches. The scrutiny of compounds having good binding characteristics for PARP-1 was carried out using a tandem mode of screening along with parameters such as binding energy and ADME analysis. The efforts afforded compound Vab1 (PubChem ID 129142036), which was chosen as a seed for obtaining novel compounds through a trained artificial intelligence (AI)-based model. Resultant compounds were assessed for PARP-1 inhibition; binding affinity prediction and interaction pattern analysis were carried out using the extra precision (XP) mode of docking. Two best hits, Vab1-b and Vab1-g, exhibiting good dock scores and suitable interactions, were subjected to 100 nanoseconds (ns) of molecular dynamics simulation in the active site of PARP-1 and compared with the reference Protein-Ligand Complex. The stable nature of PARP-1 upon binding to these compounds was revealed through MD simulation.Communicated by Ramaswamy H. Sarma.

Topics & Concepts

PharmacophorePoly ADP ribose polymeraseComputational biologyPubChemIn silicoDocking (animal)Molecular dynamicsDOCKADMEChemistryBiologyCombinatorial chemistryStereochemistryPolymeraseBiochemistryComputational chemistryDNAMedicineGeneIn vitroNursingPARP inhibition in cancer therapyComputational Drug Discovery Methods