The antiglycemic drug metformin, which is widely prescribed as a first-line drug for the treatment of type 2 diabetes, has become a concern for emerging pollutants in natural ecosystems. However, its effects on bacterial swimming motility remain unclear. In this study, we showed that metformin promotes bacterial surface aggregation by tracking swimming and by measuring the density distribution of Escherichia coli cultured with metformin near a surface in a homogeneous environment. Flagella are essential for the promotion of bacterial surface aggregation by metformin. Swimming motility, which is mediated by flagella, determines bacterial surface aggregation. The promotion of bacterial surface aggregation by metformin is caused by a reduction in swimming motility, which is governed by a decrease in the proton motive force. Our results reveal that metformin has a pronounced effect on flagellated bacterial motility associated with surface sensing and aggregation.
Keywords: Escherichia coli; flagella; metformin; surface aggregation; swimming motility.
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