From nature’s pharmacy: harnessing bioactive phytoconstituents as fibroblast growth factor receptor 3 inhibitors for anti-cancer therapeutics

Abstract

Fibroblast growth factor receptor 3 (FGFR3) is a key protein involved in regulating cell growth and development. Aberrant activation of FGFR3 has been linked to several diseases, including cancer and skeletal disorders. Therefore, identifying potential inhibitors of FGFR3 is of great interest in developing targeted therapies. In this study, we employed a combined docking and molecular dynamics simulation (MDS) approach to investigate the inhibitory potential of plant-based compounds against FGFR3. Here, we utilized structure-based virtual screening to identify potential phytoconstituents from the IMPPAT library with the ability to inhibit FGFR3 activity. The initial screening process involved molecular docking to assess the binding potential of the compounds towards FGFR3. Afterward, we employed various filters to determine physicochemical properties, ADMET, and PASS evaluation to identify potential hits against FGFR3. This process discovered two phytoconstituents, Cycloartobiloxanthone and Desoxylimonin, as promising candidates against FGFR3. These compounds exhibited favorable binding affinity, efficiency, and specific interaction towards the FGFR3 binding pocket. They preferred binding to the active site of FGFR3 and possessed desirable drug-like properties. To gain a deeper understanding of their interaction mechanism, conformational dynamics, and stability, we conducted all-atom MDS lasting 200 nanoseconds (ns) on the FGFR3-Cycloartobiloxanthone and FGFR3-Desoxylimonin complexes. The MDS consistently demonstrated the formation of stable protein-ligand complexes between FGFR3 and Cycloartobiloxanthone/Desoxylimonin throughout the trajectory. Based on these results, it can be inferred that Cycloartobiloxanthone and Desoxylimonin can potentially serve as valuable scaffolds in developing drugs targeting FGFR3 for cancer therapeutic after required validation.