Insilico design, ADMET screening, MM-GBSA binding free energy of novel 1,3,4 oxadiazoles linked Schiff bases as PARP-1 inhibitors targeting breast cancer

Background: Poly(ADP-ribose) polymerases (PARPs), a nuclear protein belongs to a new class of drugs, which mainly target tumours with DNA repair defects. They are mainly involved in the multiple cellular processes in addition to the DNA repair process. They act directly on the base excision repair, which is considered as one of the important pathway for cell survival in breast cancer. These belong to the active members of DNA repair assembly and evolved as a key target in the anti-cancer drug discovery. 1,3,4-Oxadiazoles are also well known anticancer agents. Results: A novel series of 1,3,4-oxadiazoles linked to Schiff bases (T1-21) were designed and subjected to In-silico analysis against PARP-1 (PDB ID:5DS3) enzyme targeting against breast cancer. Molecular docking study for the designed compounds (T1-21) was performed by In-silico ADMET screening by QikProp module, Glide module and MM-GBSA binding free energy calculations by using Schrodinger suit 2019-2. The PARP-1 enzyme shows the binding affinity against the newly designed molecules (T1-21) based on the glide scores. Compounds T21, T12 showed very good glide score by the molecular docking studies and compared with the standard Tamoxifen. The binding free energies by the MM-GBSA assay were found to be consistent. The pharmacokinetic (ADMET) parameters of all the newly designed compounds were found to be in the acceptable range. Conclusion: The selected 1,3,4-oxadiazole-schiff base conjugates seems to be one of the potential source for the further development of anticancer agents against PARP-1 enzyme. The results revealed that some of the compounds T21, T17, T14, T13, T12, T8 with good glide scores showed very significant activity against breast cancer