Theoretical study on the free radical scavenging potency and mechanism of natural coumestans: Roles of substituent, noncovalent interaction and solvent

The free radical scavenging potency and mechanisms of seven representative natural coumestans were system-atically evaluated using density functional theory (DFT) approach. Thermodynamic feasibility of different mechanisms was assessed by various physio-chemical descriptors involved in the double (2H+/2e-) radical -trapping processes. Energy diagram and related transition state structures of the reaction between wedelo-lactone (WEL) and hydroperoxyl radical were constructed to further uncover the radical-trapping details. Results showed that the studied coumestans prefer to scavenge radicals via formal hydrogen atom transfer (fHAT) mechanism in the gas phase and non-polar environment, whereas sequential proton loss electron transfer (SPLET) is favored in polar media. Moreover, the feasibility of second fHAT and SPLET processes was also revealed. Sequential double proton loss double electron transfer (SdPLdET) mechanism represents the preferred pathway in aqueous solution at physiological pH. Our findings highlight the essential role of ortho-dihydroxyl group, noncovalent interaction and solvents on radical-trapping potency. 4 '-OH in D-ring was found to be the most favorable site to trap radical for most of the studied coumestans, whereas 3-OH in A-ring for lucernol (LUN).

Automated summary

The free radical scavenging potency and mechanisms of seven natural coumestans were evaluated using density functional theory. The results showed that these compounds prefer formal hydrogen atom transfer mechanism in non-polar environment and gas phase, while sequential proton loss electron transfer mechanism is favored in polar media. Sequential double proton loss double electron transfer mechanism represents the preferred pathway in aqueous solution at physiological pH. The essential role of ortho-dihydroxyl group, noncovalent interaction, and solvents on radical-trapping potency was highlighted.