Discovery and design of an aptamer that inhibits Shiga toxin type 2 activity by blocking Stx2 B subunit-Gb3 interaction

Shiga toxin (Stx) is the definitive virulence factor of Stx-producing Escherichia coli. This bacterial pathogen can contaminate food and threaten human health. Binding of the B subunit of Stx to the specific receptor globotriaosylceramide (Gb3) on the cell membrane is a key step for Stx to enter cells and exert its toxicity. In this work, we aimed to screen for aptamers targeting the Stx 2 B subunit, to interfere with the interaction of Stx2 B subunit and Gb3, thereby blocking Stx2 from entering cells. The results of molecular simulation docking, competitive ELISA, flow cytometry, and laser confocal microscopy confirmed that aptamers S4, S5, and S6 can mediate the interaction between Stx2 B subunit and Gb3. To further improve the inhibition effect, multiple aptamer sequences were tailored and were fused. The bivalent modification aptamer B2 inhibited Stx2 toxicity to Vero cells with inhibition rate of 53 %. Furthermore, the aptamer B2 reduced Stx2 damage to the mice, indicating that it has great potential to interfere with Stx2 binding to Gb3 receptors in vivo and in vitro. This work provides a theoretical and experimental basis for the application of aptamers in the inhibition of Stx2 toxicity and control of food hazards.