Integrative computational analysis of anti-influenza potential in Caesalpinia mimosoides Lamk hydroethanolic extract.

In a recent study, we used chemical analysis to show that the Caesalpinia mimosoides aqueous extract, which contains a high concentration of simple phenolics, has strong anti-influenza activity. We determined through molecular docking methods that its potential target inhibitor is the neuraminidase. Therefore, our study objectives were to evaluate whether the aqueous-ethanol extract (30% v/v) of this plant species exhibits greater antiviral activity than the aqueous plant extract. The C. mimosoides hydroethanolic extract exhibited potent antioxidant activity in the DPPH assay, with an IC value of 15.01 µg/mL, comparable to authentic quercetin (IC = 12.72 µg/mL) and approximately 4.91 times greater than standard gallic acid (IC = 3.06 µg/mL). Through untargeted metabolomic analyses (UPLC-ESI(±)-QTOF-MS/MS) and subsequent stepwise computational metabolomics analyses, we identified the extract as primarily containing simple phenolics (e.g., gallic acid, ellagic acid, shikimic acid, and chlorogenic acid), flavonoid derivatives (e.g., quercetin, taxifolin, myricitrin, and afzelin), and other bioactive components, including dicarboxylic acids and germacrone. The polyphenol-rich extract showed strong anti-influenza activity, with an IC of 2.33 µg/mL against the influenza A/PR/8/34 virus and no cytotoxic effects, as indicated by a CC greater than 50 µg/mL. This represents an approximately 3.35-fold increase in effectiveness compared to its corresponding aqueous extract (IC = 7.81 µg/mL). Furthermore, the extract demonstrated no hemolytic activity, even at a maximum concentration of 2,000 µg/mL, suggesting its potential as a safe antiviral agent. Molecular docking analyses revealed that the identified phytochemicals can simultaneously interact with the "drug-target binding sites" of neuraminidase (NA) and PB2 subunit of influenza RNA polymerase, indicating their potential polypharmacological effects. The antiviral activity of the ethanolic-aqueous extract against other strains is being explored due to the versatile biological effects of phenolic substances.