Tailoring the Substitution Pattern on 1,3,5-Triazine for Targeting Cyclooxygenase-2: Discovery and Structure-Activity Relationship of Triazine-4-Aminophenylmorpholin-3-one Hybrids that Reverse Algesia and Inflammation in Swiss Albino Mice.

Here, we report analgesic and anti-inflammatory activity of a series of compounds obtained by appending 4-aminophenylmorpholin-3-one and acyclic, cyclic, or heterocyclic moieties on 1,3,5-triazine. The structures of compounds 4b and 6b are optimized for the best inhibition of COX-2 with IC50 values of 0.06 and 0.08 μM, respectively, and selectivity over COX-1 of 166 and >125, respectively. At the dose of 5 mg kg-1, these compounds significantly reduced acetic acid induced writhings, and their ED50 values were found to be 2.2 and 1.9 mg kg-1, respectively. Besides the cell-based and animal-based experiments showing the modes of action of these compounds targeting COX-2, the interaction behavior of 4b with COX-2 was also characterized, with physicochemical experiments including ITC, NMR, UV-vis, and molecular-modeling studies. Characteristically, these compounds interact with R120, Y355, and W385, the residues responsible for holding the substrate and mediating the process of electron transfer during the metabolic phase of the enzyme.