Design, synthesis, molecular docking and DFT computational insight on the structure of Piperazine sulfynol derivatives as a new antibacterial contender against superbugs MRSAY

In this investigation, a series of piperazine sulfynol derivatives 5(a-l) were synthesized and amply characterized by various spectral techniques viz, LC-MS, H-1 NMR, C-13 NMR, and FT-IR. The energy and other quantum chemical computations of all the piperazine sulfynol derivatives were achieved using Density functional theory (DFT), Absorption, Distribution, Metabolism and Excretion (ADME), Blood Brain Barrier (BBB) and their Prediction of Activity Spectra of Computational Screening (PASS) for their possible approaches for biological applications were evaluated. The synthesized compounds were checked for the physicochemical properties such as clogP, clogS, drug-likeness, total surface area, polar surface area, H-acceptor, and H-donor parameters. The considerable change in the design with sulfonyl moiety on the piperazine core motivates to find out new antibacterial contender of the resultant molecules against superbugs-MRSA. All 5(a-l) moieties were tested for antibacterial potency against MRSA. The 5e moiety shows a MIC value of 35 +/- 0.41 mu g/mL and 9.90 +/- 0.03 ZOI in mm compared to drug bacitracin 10 mu g/disk (10.21 +/- 0.04) and streptomycin 10 mu g/disk (14.10 +/- 0.06) ZOI in mm. The action of biocidal properties against MRSA was confirmed by an in silico docking study on the protein 1FZP and 3SRW of MRSA. The revealed data strongly recommended 5e having a good docking score, binding energy, and glide energy with high binding affinity. The antibacterial activity was validated by SEM, cellular leakage, potassium elflux and inhibitory effect on electron transport chain. The behavior of the 5e analog in haemostatic condition was well established and cytotoxicity was evaluated against L6 cell lines. The revealed data showed that 5e analog is a potential antibacterial contender against MRSA and it can be used as a futuristic drug in the eradication of MRSA infections. (C) 2021 Elsevier B.V. All rights reserved.

Automated summary

A series of piperazine sulfynol derivatives were synthesized and characterized, with 5e derivative showing promising antibacterial activity against MRSA and high binding affinity in in silico docking studies. The compound exhibited biocidal properties against MRSA, validated through various assays, and was identified as a potential antibacterial contender for future MRSA infection eradication.