Design, Synthesis, Characterization, Enzyme Inhibition, Molecular Docking, and Pharmacological Evaluation of New Chalcone‐Sulfonate Derivatives Bearing Thiophene
Hakan Aslan, Fuat Yetişsin, Adem Korkmaz, Ercan Bursal
Abstract
Abstract The novel chalcone‐sulfonate derivatives bearing thiophene motif were synthesized and characterized using 1 H NMR, 13 C NMR, and HRMS analysis. The evaluation of in vitro and in silico potential pancreatic lipase inhibition activity of the novel chalcone‐sulfonate derivatives bearing thiophene motif was scanned. IC 50 values of compounds 5 i (28.76±2.11 μM) and 5 f (30.58±0.45 μM) were determined to be more effective pancreatic lipase inhibitors for in vitro studies. The best potential inhibitor for pancreatic lipase binding affinity was found as compound 5 f (−9.8 kcal mol −1 ) for in silico studies. Although compounds 5 f and 5 i were identified as the best pancreatic lipase inhibitor candidates in vitro and molecular docking studies, compounds 5 f and 5 i were predicted mutagenic and carcinogenic properties in mice according to ADMET studies. Deeply, compound 5 h was a more effective pancreatic lipase inhibitor according to enzyme inhibition, molecular docking, and ADMET studies. It can be said that compound 5 h may be a more efficient drug candidate than orlistat in the treatment of obesity.