Antiviral Activity of Algae Extract Is Not Exclusively Due to Astaxanthin.

In this study, astaxanthin, which has previously been shown to have antiviral effects, was examined for its dose-dependent potency to inhibit cellular SARS-CoV-2 infections. Naturally occurring astaxanthin is obtained and orally administered as ASX-oleoresin, a composition of different astaxanthin fatty acid esters. We therefore hypothesized that the compound's beneficial effects are not only related to astaxanthin. Thus, a "green" algae extract (i.e., poor astaxanthin content < 0.2%; ASX) of the microalgae , as well as an astaxanthin-rich algae extract (astaxanthin content = 20%; ASX), were tested in in vitro cellular viral infection assays. Thereby, it was found that both extracts reduced viral infections significantly. As a potential mode of inhibitory action, the binding of ASX-oleoresin to the viral spike protein was investigated by isothermal fluorescence titration, revealing binding affinities of Kd = 1.05 µM for ASX and Kd = 1.42 µM for ASX. Based on our data, we conclude that several ASX-oleoresin fractions from exhibit antiviral activity, which extends beyond the known antioxidant activity of astaxanthin. From a molecular dynamic simulation of ASX-oleoresin, fatty acid domains could be considered as activity-chaperoning factors of ASX. Therefore, microalgae biomass should be considered in the future for further antiviral activities.