Abstract
Pseudomonas aeruginosa is a Gram-negative opportunistic bacterium, synonymous with cystic fibrosis patients, which can cause chronic infection of the lungs. This pathogen is a model organism to study biofilms: a bacterial population embedded in an extracellular matrix that provide protection from environmental pressures and lead to persistence. A number of Chaperone-Usher Pathways, namely CupA-CupE, play key roles in these processes by assembling adhesive pili on the bacterial surface. One of these, encoded by the cupB operon, is unique as it contains a nonchaperone-usher gene product, CupB5. Two-partner secretion (TPS) systems are comprised of a C-terminal integral membrane β-barrel pore with tandem N-terminal POTRA (POlypeptide TRansport Associated) domains located in the periplasm (TpsB) and a secreted substrate (TpsA). Using NMR we show that TpsB4 (LepB) interacts with CupB5 and its predicted cognate partner TpsA4 (LepA), an extracellular protease. Moreover, using cellular studies we confirm that TpsB4 can translocate CupB5 across the P. aeruginosa outer membrane, which contrasts a previous observation that suggested the CupB3 P-usher secretes CupB5. In support of our findings we also demonstrate that tps4/cupB operons are coregulated by the RocS1 sensor suggesting P. aeruginosa has developed synergy between these systems. Furthermore, we have determined the solution-structure of the TpsB4-POTRA1 domain and together with restraints from NMR chemical shift mapping and in vivo mutational analysis we have calculated models for the entire TpsB4 periplasmic region in complex with both TpsA4 and CupB5 secretion motifs. The data highlight specific residues for TpsA4/CupB5 recognition by TpsB4 in the periplasm and suggest distinct roles for each POTRA domain.
Highlights
Pseudomonas aeruginosa is a gram-negative opportunistic pathogen of animals, including humans, which can infect the eyes, lungs, kidneys, and urinary tract and lead to fatal consequences
P. aeruginosa Tps[4] System Is Involved in CupB5 Secretion study and using similar growth conditions on agar plates set up in our laboratory, we observed that CupB5 could be readily recovered in the sheared fraction of this cupB3 mutant[18] (PAO1DDDcupB3*R: DcupB3 mutant within the DpilA DfliC mutant PAO1 strain PAO1DD) and was still able to reach the surface [Fig. 1(A,B)]
Tps[4] is likely a multisubstrate Two-partner secretion (TPS) system In this study, we show that under various growth conditions the TpsB4 transporter is able to translocate CupB5 across the P. aeruginosa outer membrane which contradicts earlier observations in which the P-usher CupB3 was shown to secrete CupB5.18 Our new data described in this manuscript clearly identifies TpsB4 as the major CupB5 transporter and is supported by extensive mutagenesis and structural insight
Summary
Pseudomonas aeruginosa is a gram-negative opportunistic pathogen of animals, including humans, which can infect the eyes, lungs, kidneys, and urinary tract and lead to fatal consequences. Several Chaperone-Usher Pathways[3,4,5,6] have been identified in P. aeruginosa (CupA to CupE)[7,8,9,10,11,12] that sustain this extracellular lifestyle, for many of them their specific targets still remain unknown. It has been shown that CupA pili promote adherence to solid surfaces,[9] CupB/ CupC pili act in synergy to support microcolony formation,[12] CupD pili function to increase biofilm formation and decrease motility[11,13] and CupE pili aid in colony formation during early biofilms while shaping the three-dimensional architecture of maturing biofilms.[10] these structures are differentially regulated,[14] which supports the notion that they play distinct roles during biofilm formation and/or allow the colonization of specific environmental niches.[7,8,10,11,12].
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