Abstract
Industrialization, fast food intake and reduced physical activity, mainly in developed countries, exacerbate obesity and make it a major lifestyle disorder. A promising strategy for developing effective anti-obesity agents is to inhibit pancreatic lipase, thereby reducing lipid absorption. Currently, the only clinically approved pharmacological agent for pancreatic lipase inhibition is Orlistat. However, its undesirable gastrointestinal side effects have prompted the search for more effective and potent drugs. This study investigates the inhibitory mechanism of Bromhexine, a mucolytic drug, on pancreatic lipase using Lineweaver-Burk plot analysis and molecular docking, along with simulations, and compares its efficacy to that of the Food and Drug Administration (FDA) approved drug Orlistat. Kinetic analysis indicates that Bromhexine exhibits mixed inhibition of pancreatic lipase, with IC(50) and K(i) values of 360 µM and 450 µM, respectively, which are comparable to those of Orlistat. Molecular docking confirms that Bromhexine interacts with the His263 residue in the enzyme's active site through hydrogen bonding, similar to Orlistat, thereby reducing the enzyme's affinity for its natural substrate. Binding pose metadynamics (BPMD) simulations further supports the stability of Bromhexine's interactions. Collectively, our findings suggest that Bromhexine displays potent pancreatic lipase (PL) inhibition activity and could serve as a potential candidate in weight management as demonstrated by both in silico and in vitro analyses. However, further investigations, including structure-activity relationship (SAR) analyses and in vivo studies, are necessary to confirm its clinical potential as a pancreatic lipase inhibitor.