PilF Is an Outer Membrane Lipoprotein Required for Multimerization and Localization of thePseudomonas aeruginosaType IV Pilus Secretin

Koo, Jarley; Tammam, Stephanie; Ku, Shao-Yang; Sampaleanu, L.M.; Burrows, Lori L.; Howell, P. Lynne

doi:10.1128/jb.00996-08

Cited by 101 publications

(116 citation statements)

References 72 publications

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“…These include the major pilin subunit PilA, as well as a conserved set of minor pilin-like proteins (21); the N-methyltransferase/peptidase PilD, essential for processing prepilins into their mature form (53); an inner membrane assembly subcomplex composed of PilM/N/O/P (4,47); an outer membrane PilQ secretin pore oligomerized with the assistance of the lipoprotein PilF (7,29); and the motor ATPases PilB and PilT/U (12,54,57), involved in pilus extension and retraction, respectively. The gene encoding FimV was originally identified in a transposon mutagenesis screen for P. aeruginosa mutants defective in twitching motility, but its role was not defined (50).…”

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“…Rabbit polyclonal antisera were generated by Cedarlane (Burlington, Ontario, Canada). The antisera raised against PilM/N/O/P/Q/F and PilA were described previously (4,24,29).The expression vectors pET28a-fimV66-1170, pET151-fimV67-387, and pET151-fimV67-762 (Table 1) were transformed into E. coli BL21-Codon Plus-RIPL and grown in LB with ampicillin at 100 mg/liter at 37°C to an OD 600 of 0.5 to 0.6, when protein expression was induced using 1.0 mM IPTG. Cells were harvested after 3 to 4 h. Cells were resuspended in lysis buffer containing 500 mM KCl, 0.1% LDAO (lauryldimethylamine oxide), 20 mM Tris, pH 8.0, 10 ng/ml of DNase and RNase, and a cocktail of protease inhibitors prior to lysis via sonication and centrifuged at 50,000 ϫ g. The soluble fraction was applied to a preequilibrated 5-ml His-trap nickel column (Amersham).…”

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The Peptidoglycan-Binding Protein FimV Promotes Assembly of the Pseudomonas aeruginosa Type IV Pilus Secretin

et al. 2011

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The Pseudomonas aeruginosa inner membrane protein FimV is among several proteins of unknown function required for type IV pilus-mediated twitching motility, arising from extension and retraction of pili from their site of assembly in the inner membrane. The pili transit the periplasm and peptidoglycan (PG) layer, ultimately exiting the cell through the PilQ secretin. Although fimV mutants are nonmotile, they are susceptible to killing by pilus-specific bacteriophage, a hallmark of retractable surface pili. Here we show that levels of recoverable surface pili were markedly decreased in fimV pilT retraction-deficient mutants compared with levels in the pilT control, demonstrating that FimV acts at the level of pilus assembly. Levels of inner membrane assembly subcomplex proteins PilM/N/O/P were decreased in fimV mutants, but supplementation of these components in trans did not restore pilus assembly or motility. Loss of FimV dramatically reduced the levels of the PilQ secretin multimer through which pili exit the cell, in part due to decreased levels of PilQ monomers, while PilF pilotin levels were unchanged. Expression of pilQ in trans in the wild type or fimV mutants increased total PilQ monomer levels but did not alter secretin multimer levels or motility. PG pulldown assays showed that the N terminus of FimV bound PG in a LysM motif-dependent manner, and a mutant with an in-frame chromosomal deletion of the LysM motif had reduced motility, secretin levels, and surface piliation. Together, our data show that FimV's role in pilus assembly is to promote secretin formation and that this function depends upon its PG-binding domain.Type IV pili (T4P) are thin, long, flexible, and retractable protein filaments. The broad distribution of T4P among bacterial genera correlates with their ability to mediate a wide range of functions, including attachment to surfaces, DNA uptake, and twitching motility. During twitching motility, pili extend from the cell and attach to a surface, and pilus retraction occurs, moving the bacteria forward toward the point of adhesion (41,51). T4P have been classified into two distinct subtypes, T4aP and T4bP, based on differences in structure of the major pilin subunit and in architecture of the assembly systems (3,16,43). T4aP have been characterized extensively in species such as Pseudomonas aeruginosa, Neisseria spp., and Myxococcus xanthus (10,22,23,39,40,46,49,52). T4bP are found predominately in enteric pathogens, where they promote adhesion (37,58) and bacterial aggregation (6).In P. aeruginosa, a large number of genes involved in the regulation, assembly, and dynamics of T4aP function have been identified. These include the major pilin subunit PilA, as well as a conserved set of minor pilin-like proteins (21); the N-methyltransferase/peptidase PilD, essential for processing prepilins into their mature form (53); an inner membrane assembly subcomplex composed of PilM/N/O/P (4, 47); an outer membrane PilQ secretin pore oligomerized with the assistance of the lipoprotein PilF (7, 29); a...

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The Peptidoglycan-Binding Protein FimV Promotes Assembly of the Pseudomonas aeruginosa Type IV Pilus Secretin

et al. 2011

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“…Constructs containing the desired Cys substitutions, pEX18Gm::pilMNOP for PilNO Cys mutants and pEX18Gm::pilNOP for PilO Cys mutants, were introduced into E. coli SM10 cells for biparental mating with PAK pilN::FRT and PAK pilO::FRT, respectively (12). The E. coli SM10 donor was counter-selected by plating on Pseu- Major cell compartments are labeled as follows: inner membrane (IM), peptidoglycan (PG), and outer membrane (OM).…”

Section: Methodsmentioning

confidence: 99%

“…6, B and C), suggesting that the PilNO interface no longer adopts an orientation permissive for disulfide bond formation. New crystal structures of a P. aeruginosa PilM homodimer and of monomeric PilM fused to part of its binding partner, PilN (1)(2)(3)(4)(5)(6)(7)(8)(9)(10)(11)(12), revealed that in the absence of PilN, the seven N-terminal residues of PilM (PilM (1-7)) bind in the PilN binding cleft of a second PilM monomer (41). Thus, PilM dimerizes in the absence of PilN.…”

Section: Piln and Pilo Homodimers May Represent A Functional Rather Tmentioning

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Type IV Pilus Alignment Subcomplex Proteins PilN and PilO Form Homo- and Heterodimers in Vivo

Leighton

Yong

Howell

et al. 2016

Journal of Biological Chemistry

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Pseudomonas aeruginosa is a leading cause of hospital-acquired infections and is resistant to many antibiotics. Type IV pili (T4P) are among the key virulence factors used by P. aeruginosa for host cell attachment, biofilm formation, and twitching motility, making this system a promising target for novel therapeutics. Point mutations in the conserved PilMNOP alignment subcomplex were previously shown to have distinct effects on assembly and disassembly of T4P, suggesting that it may function in a dynamic manner. We introduced mutations encoding Cys substitutions into pilN and/or pilO on the chromosome to maintain normal stoichiometry and expression levels and captured covalent PilNO heterodimers, as well as PilN and PilO homodimers, in vivo. Most covalent PilN or PilO homodimers had minimal functional impact in P. aeruginosa, suggesting that homodimers are a physiologically relevant state. However, certain covalent homo-or heterodimers eliminated twitching motility, suggesting that specific PilNO configurations are essential for T4P function. These data were verified using soluble N-terminal truncated fragments of PilN and PilO Cys mutants, which purified as a mixture of homo-and heterodimers at volumes consistent with a tetramer. Deletion of genes encoding alignment subcomplex components, PilM or PilP, but not other T4P components, including the motor ATPases PilB or PilT, blocked in vivo formation of disulfide-bonded PilNO heterodimers, suggesting that both PilM and PilP influence the heterodimer interface. Combined, our data suggest that T4P function depends on rearrangements at PilN and PilO interfaces.Many bacteria, including Pseudomonas aeruginosa, use type IV pili (T4P) 3 for surface attachment/adhesion, biofilm formation, and twitching motility (1-6). T4P are divided into T4aP and T4bP subgroups, based on differences in pilin size and organization of the assembly machinery (6, 7). Here we focus on T4aP, henceforth referred to as T4P. T4P are long, thin, fibrous appendages, which extend from the bacteria, attach to a surface, and are retracted back into the cell, winching the cell forward. This flagellum-independent form of locomotion is called twitching motility. Four subcomplexes make up a T4P machine in P. aeruginosa as follows: the outer membrane (OM) secretin (PilQ) and its pilotin (PilF) (8 -12); the inner membrane (IM) platform protein (PilC) and cytoplasmic motor proteins (ATPases PilBTU) (13,14); the helical pilus fiber, composed mainly of the major pilin subunit (PilA) plus minor pilins (PilVWXE and FimU) and adhesin PilY1 (5, 15, 16); and the alignment subcomplex proteins (PilMNOP) that span from the cytoplasm to the OM secretin (17-20). PilN and PilO are bitopic IM proteins with similar predicted secondary structures. These proteins are essential for T4P function and connect the cytoplasmic alignment subcomplex component, PilM, with the IM-associated lipoprotein PilP that interacts with the N0 domain of the secretin monomer PilQ (19,21). Proposed functions of the PilMNOP subcomplex include ali...

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“…The pilQ gene encodes a secretin through which the major pilin is secreted across the outer membrane. Assembly of this secretin requires its cognate pilotin, PilF, an outer membrane lipoprotein involved in the correct localization and multimerization of PilQ [32]. Furthermore, in contrast to PilB, which is involved in the assembly and extension of type IV pilin, PilT and PilU promote disassembly and retraction of the pilin.…”

Section: Both Vib15rifmentioning

confidence: 99%

Are type IV pili involved in Vibrio anguillarum virulence towards sea bass (Dicentrarchus labrax L.) larvae?

Frans¹,

Busschaert²,

Dierckens³

et al. 2013

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Vibrio anguillarum, an important bacterial fish pathogen, expresses a variety of virulence factors contributing to its ability to cause vibriosis in fish. Many virulence factors of this pathogen remain however unknown. For example, a type IV pilus system was previously reported to be potentially involved in the virulence of this bacterium but no experimental evidence was reported yet. In this study, complete genome sequencing of V. anguillarum strain VIB15, shown to be highly virulent towards sea bass (Dicentrarchus labrax L.) larvae, revealed the presence of a PilA pilin. A V. anguillarum VIB15 pilA mutant was constructed and the pathogenicity of this mutant was assessed in a gnotobiotic sea bass system developed for virulence screening. Our results suggest that the V. anguillarum pilA gene is not crucial for virulence towards sea bass larvae. Possibly, another type IV pilus system identified in V. anguillarum, showing homology to the mannose-sensitive hemagglutinin pilin of Vibrio cholerae, may complement the pilA mutation. Alternatively, the type IV pilus system has a role in infection of juvenile or adult fish, rather than in the larval phase. As such, further research is required to unravel the potential role of type IV pili in V. anguillarum virulence.

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PilF Is an Outer Membrane Lipoprotein Required for Multimerization and Localization of thePseudomonas aeruginosaType IV Pilus Secretin

Cited by 101 publications

References 72 publications

The Peptidoglycan-Binding Protein FimV Promotes Assembly of the Pseudomonas aeruginosa Type IV Pilus Secretin

The Peptidoglycan-Binding Protein FimV Promotes Assembly of the Pseudomonas aeruginosa Type IV Pilus Secretin

Type IV Pilus Alignment Subcomplex Proteins PilN and PilO Form Homo- and Heterodimers in Vivo

Are type IV pili involved in <i>Vibrio anguillarum</i> virulence towards sea bass (<i>Dicentrarchus labrax</i> L.) larvae?

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PilF Is an Outer Membrane Lipoprotein Required for Multimerization and Localization of thePseudomonas aeruginosaType IV Pilus Secretin

Cited by 101 publications

References 72 publications

The Peptidoglycan-Binding Protein FimV Promotes Assembly of the Pseudomonas aeruginosa Type IV Pilus Secretin

The Peptidoglycan-Binding Protein FimV Promotes Assembly of the Pseudomonas aeruginosa Type IV Pilus Secretin

Type IV Pilus Alignment Subcomplex Proteins PilN and PilO Form Homo- and Heterodimers in Vivo

Are type IV pili involved in &lt;i&gt;Vibrio anguillarum&lt;/i&gt; virulence towards sea bass (&lt;i&gt;Dicentrarchus labrax&lt;/i&gt; L.) larvae?

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Are type IV pili involved in <i>Vibrio anguillarum</i> virulence towards sea bass (<i>Dicentrarchus labrax</i> L.) larvae?