Antiparallel stacking of Csu pili drives Acinetobacter baumannii 3D biofilm assembly

Malmi, Henri; Pakharukova, Natalia; Paul, Bindusmita; Tuittila, Minna; Ahmad, Irfan; Knight, Stefan David; Uhlin, Bernt Eric; Ghosal, Debnath; Zavialov, Anton V.

Antiparallel stacking of Csu pili drives Acinetobacter baumannii 3D biofilm assembly

dc.contributor.author	Malmi, Henri
dc.contributor.author	Pakharukova, Natalia
dc.contributor.author	Paul, Bindusmita
dc.contributor.author	Tuittila, Minna
dc.contributor.author	Ahmad, Irfan
dc.contributor.author	Knight, Stefan David
dc.contributor.author	Uhlin, Bernt Eric
dc.contributor.author	Ghosal, Debnath
dc.contributor.author	Zavialov, Anton V.
dc.contributor.organization	fi=MediCity\|en=MediCity\|
dc.contributor.organization-code	1.2.246.10.2458963.20.83772236069
dc.converis.publication-id	515594977
dc.converis.url	https://research.utu.fi/converis/portal/Publication/515594977
dc.date.accessioned	2026-04-24T19:59:51Z
dc.description.abstract	<p>Many Gram-negative nosocomial pathogens rely on adhesive filaments, known as archaic chaperone-usher pili, to establish stress- and drug-resistant, multi-layered biofilms. Here, we uncover the mechanism by which these pili build three-dimensional (3D) biofilm architectures. In situ analyses of <em>Acinetobacter baumannii</em> biofilms using electron microscopy (EM) reveal an extensive network of ultrathin, flat stacks of archaic Csu pili interconnecting bacterial cells in 3D space. Cryo-EM structures of a single native pilus, pilus pairs, and two types of multi-pilus stacks show that the pili pack into antiparallel sheets, with their rods connected laterally by junctions at their zigzag corners. This antiparallel arrangement ensures that contacts form primarily between pili from interacting cells rather than pili from the same cell. With a remarkably short helical repeat, archaic chaperone-usher pili spontaneously establish a high density of junctions that determines the biofilm’s 3D architecture. Our findings may help develop new therapies against multidrug-resistant bacterial infections by targeting pilus-pilus interactions.<br></p>
dc.identifier.eissn	2041-1723
dc.identifier.uri	https://www.utupub.fi/handle/11111/59362
dc.identifier.url	https://doi.org/10.1038/s41467-026-68860-z
dc.identifier.urn	URN:NBN:fi-fe2026042333170
dc.language.iso	en
dc.okm.affiliatedauthor	Malmi, Henri
dc.okm.affiliatedauthor	Tuittila, Minna
dc.okm.affiliatedauthor	Zavialov, Anton
dc.okm.discipline	318 Medical biotechnology	en_GB
dc.okm.discipline	318 Lääketieteen bioteknologia	fi_FI
dc.okm.internationalcopublication	international co-publication
dc.okm.internationality	International publication
dc.okm.type	A1 ScientificArticle
dc.publisher	Springer Science and Business Media LLC
dc.publisher.country	United Kingdom	en_GB
dc.publisher.country	Britannia	fi_FI
dc.publisher.country-code	GB
dc.relation.articlenumber	2508
dc.relation.doi	10.1038/s41467-026-68860-z
dc.relation.ispartofjournal	Nature Communications
dc.relation.issue	1
dc.relation.volume	17
dc.title	Antiparallel stacking of Csu pili drives Acinetobacter baumannii 3D biofilm assembly
dc.year.issued	2026

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