DNA uptake and twitching motility are controlled by the small RNA Arp through repression of pilin translation in Acinetobacter baumannii.

Acinetobacter baumannii is a major opportunistic pathogen capable of natural transformation, a process driven by type IV pili (T4P) that facilitates horizontal gene transfer and accelerates the spread of antimicrobial resistance. While the transcriptional regulation of T4P is increasingly understood, post-transcriptional mechanisms controlling pilus assembly remain unexplored. Here, we identify and characterise a small RNA, Arp (Acinetobacter repressor of pilin), as a post-transcriptional repressor of T4P-mediated functions in A. baumannii. In a previous Hi-GRIL-seq experiment, we detected specific ligation events between Arp and the ribosome binding site of the pilA mRNA, encoding the major pilin subunit PilA. In-line probing and translational reporter assays revealed that Arp represses pilA translation by sequestering the Shine-Dalgarno sequence and the first 17 codons of the mRNA. Overexpression of Arp significantly impairs DNA uptake and twitching motility, two hallmark T4P-dependent phenotypes. Together, our findings identify a native A. baumannii sRNA that modulates natural competence by targeting pilin synthesis, revealing a new regulatory layer that could be exploited to disrupt horizontal gene transfer in multidrug-resistant strains.