Cancer is distinguished by uncontrolled cell growth and it is regulated by several environmental and genetic factors. The Wnt β-Catenin signaling pathway has been considered as the most significant colon cancer-targeted pathway. AXIN plays a major regulatory role in the Wnt signaling mechanism. The AXIN after PARsylated by TNKS is ubiqutinated by RNF146 through its WWE domain that leads to degradation of AXIN protein. Several studies have been proposed highlighting the inhibition of the PARsylation mechanism that mediates the degradation of AXIN and improves β-catenin stability. The present study focused on the identification of potential inhibitors for the inhibition of RNF146-TNKS complex through identifying potential RNF146 inhibitors to prevent ubiquitination of AXIN, further to confirm the regulatory role and inhibition mechanism of RNF146-AXIN and RNF146-TNKS. The docked complex was then evaluated using various computational analysis. Molecular interactions analysis was performed to observe the interacting residues between the protein complex. The compounds from various databases were docked with the RNF146 and complex proteins. Both the protein complex and ligand were analyzed for the confirmation of structural stability using molecular dynamics simulations. Selected compounds' atomic configuration and electron profile were analyzed through DFT calculations and ADME/T (Physico-chemical) properties. As a result, we found several common lead compounds for RNF146, TNKS protein inhibition. Therefore, the docked compounds may act as a better antagonist molecule for RNF146, TNKS and associated signaling molecules. Further, experimental validations are required to prove the potency of the identified compounds.Communicated by Ramaswamy H. Sarma.
Keywords: Cancer; Molecular Docking; Molecular Dynamics; RNF146-AXIN; RNF146-TNKS; Wnt β-Catenin signaling pathway.