Twitching motility suppressors reveal a role for FimX in type IV pilus extension dynamics

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Abstract

In Pseudomonas aeruginosa, retractable protein filaments called type IV pili (T4P) facilitate surface adherence, sensing, and directional movement known as twitching motility. T4P are necessary for the bacteria to engage in surface-associated behaviors, including establishing acute infections. Pilus extension is driven by the hexameric ATPase, PilB, at the base of the T4P nanomachine in coordination with various protein regulatory effectors. The cyclic-di-GMP binding protein, FimX, works with PilB to mediate normal extension processes, though how this effector controls pilus assembly remains unclear. To explore the role of FimX in T4P function, we leveraged the significant ΔfimX twitching motility deficit to screen for mutants capable of overcoming this phenotype. We identified suppressor mutations that increase twitching in a ΔfimX background, mapping primarily to cyclic-AMP homeostatic machinery or to PilB, the FimX target. Distinct suppressor mutations in PilB increased ATP hydrolysis in vitro and the activity of each suppressor was subject to modulation by FimX. Using microscopy to monitor the extension dynamics of fluorescently labelled T4P, we showed that ΔfimX mutants produce slow-to-extend, short pili, a phenotype that is rescued by mutations enhancing PilB ATP hydrolysis and/or re-introduction of FimX. Together, these data may imply FimX normally acts as a regulator of PilB activity in cells, potentially enabling P. aeruginosa to fine-tune pilus extension dynamics in response to environmental cues.

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Roberge, N., Yuen, N., Harvey, H., Ellison, T. J., Ellison, C. K., & Burrows, L. L. (2025). Twitching motility suppressors reveal a role for FimX in type IV pilus extension dynamics. PLoS Genetics, 21(10), e1011802. https://doi.org/10.1371/journal.pgen.1011802

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