Dynamic interspecies interactions and robustness in a four‐species model biofilm

ABSTRACT The thick mucus within the airways of individuals with cystic fibrosis (CF) promotes frequent respiratory infections that are often polymicrobial. Pseudomonas aeruginosa and Staphylococcus aureus are two of the most prevalent pathogens that cause CF pulmonary infections, and both are among the most common etiologic agents of chronic wound infections. Furthermore, the ability of P. aeruginosa and S. aureus to form biofilms promotes the establishment of chronic infections that are often difficult to eradicate using antimicrobial agents. In this study, we found that multiple LasR-regulated exoproducts of P. aeruginosa, including 2-heptyl-4-hydroxyquinoline N-oxide (HQNO), siderophores, phenazines, and rhamnolipids, likely contribute to the ability of P. aeruginosa PA14 to shift S. aureus Newman norfloxacin susceptibility profiles. Here, we observe that exposure to P. aeruginosa exoproducts leads to an increase in intracellular norfloxacin accumulation by S. aureus. We previously showed that P. aeruginosa supernatant dissipates the S. aureus membrane potential, and furthermore, depletion of the S. aureus proton motive force recapitulates the effect of the P. aeruginosa PA14 supernatant on shifting norfloxacin sensitivity profiles of biofilm-grown S. aureus Newman. From these results, we hypothesize that exposure to P. aeruginosa PA14 exoproducts leads to increased uptake of the drug and/or an impaired ability of S. aureus Newman to efflux norfloxacin. Surprisingly, the effect observed here of P. aeruginosa PA14 exoproducts on S. aureus Newman susceptibility to norfloxacin seemed to be specific to these strains and this antibiotic. Our results illustrate that microbially derived products can alter the ability of antimicrobial agents to kill bacterial biofilms. IMPORTANCE Pseudomonas aeruginosa and Staphylococcus aureus are frequently coisolated from multiple infection sites, including the lungs of individuals with cystic fibrosis (CF) and nonhealing diabetic foot ulcers. Coinfection with P. aeruginosa and S. aureus has been shown to produce worse outcomes compared to infection with either organism alone. Furthermore, the ability of these pathogens to form biofilms enables them to cause persistent infection and withstand antimicrobial therapy. In this study, we found that P. aeruginosa-secreted products dramatically increase the ability of the antibiotic norfloxacin to kill S. aureus biofilms. Understanding how interspecies interactions alter the antibiotic susceptibility of bacterial biofilms may inform treatment decisions and inspire the development of new therapeutic strategies.

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T6SS Mediated Stress Responses for Bacterial Environmental Survival and Host Adaptation

International Journal of Molecular Sciences ◽

10.3390/ijms22020478 ◽

2021 ◽

Vol 22 (2) ◽

pp. 478

Author(s):

Kai-Wei Yu ◽

Peng Xue ◽

Yang Fu ◽

Liang Yang

Keyword(s):

Protein Secretion ◽

Stress Responses ◽

Current Knowledge ◽

Bacterial Species ◽

Host Cells ◽

Interspecies Interactions ◽

Type Vi Secretion System ◽

Membrane Complex ◽

Type Vi Secretion ◽

Bacterial Type

The bacterial type VI secretion system (T6SS) is a protein secretion apparatus widely distributed in Gram-negative bacterial species. Many bacterial pathogens employ T6SS to compete with the host and to coordinate the invasion process. The T6SS apparatus consists of a membrane complex and an inner tail tube-like structure that is surrounded by a contractile sheath and capped with a spike complex. A series of antibacterial or antieukaryotic effectors is delivered by the puncturing device consisting of a Hcp tube decorated by the VgrG/PAAR complex into the target following the contraction of the TssB/C sheath, which often leads to damage and death of the competitor and/or host cells. As a tool for protein secretion and interspecies interactions, T6SS can be triggered by many different mechanisms to respond to various physiological conditions. This review summarizes our current knowledge of T6SS in coordinating bacterial stress responses against the unfavorable environmental and host conditions.

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Interspecies interactions of Vibrio azureus and Jeotgalibacillus alkaliphilus on corrosion of duplex stainless steel

International Biodeterioration & Biodegradation ◽

10.1016/j.ibiod.2021.105212 ◽

2021 ◽

Vol 160 ◽

pp. 105212

Author(s):

Masoumeh Moradi ◽

Yi Yang ◽

Dake Xu ◽

Zhenlun Song ◽

Fuhui Wang

Keyword(s):

Stainless Steel ◽

Duplex Stainless Steel ◽

Interspecies Interactions

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Examining interspecies interactions in light of discourse analytic theory: A case study on the genre of human-goat communication at a petting farm

Language & Communication ◽

10.1016/j.langcom.2021.03.003 ◽

2021 ◽

Vol 79 ◽

pp. 53-70

Author(s):

Fien De Malsche ◽

Leonie Cornips

Keyword(s):

Analytic Theory ◽

Interspecies Interactions

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Microbial Interspecies Interactions Affect Arsenic Fate in the Presence of MnII

Microbial Ecology ◽

10.1007/s00248-017-1008-9 ◽

2017 ◽

Vol 74 (4) ◽

pp. 788-794

Author(s):

Jinsong Liang ◽

Yaohui Bai ◽

Jiuhui Qu

Keyword(s):

Interspecies Interactions

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Function of the Pyruvate Oxidase-Lactate Oxidase Cascade in Interspecies Competition between Streptococcus oligofermentans and Streptococcus mutans

Applied and Environmental Microbiology ◽

10.1128/aem.07539-11 ◽

2012 ◽

Vol 78 (7) ◽

pp. 2120-2127 ◽

Cited By ~ 31

Author(s):

Lei Liu ◽

Huichun Tong ◽

Xiuzhu Dong

Keyword(s):

Stationary Phase ◽

Streptococcus Mutans ◽

Growth Phase ◽

Large Degree ◽

Interspecies Interactions ◽

Lactate Oxidase ◽

Interspecies Competition ◽

Pyruvate Oxidase ◽

Content Type

ABSTRACTComplex interspecies interactions occur constantly between oral commensals and the opportunistic pathogenStreptococcus mutansin dental plaque. Previously, we showed that oral commensalStreptococcus oligofermentanspossesses multiple enzymes for H2O2production, especially lactate oxidase (Lox), allowing it to out-competeS. mutans. In this study, through extensive biochemical and genetic studies, we identified a pyruvate oxidase (pox) gene inS. oligofermentans. Apoxdeletion mutant completely lost Pox activity, while ectopically expressedpoxrestored activity. Pox was determined to produce most of the H2O2in the earlier growth phase and log phase, while Lox mainly contributed to H2O2production in stationary phase. Bothpoxandloxwere expressed throughout the growth phase, while expression of theloxgene increased by about 2.5-fold when cells entered stationary phase. Since lactate accumulation occurred to a large degree in stationary phase, the differential Pox- and Lox-generated H2O2can be attributed to differential gene expression and substrate availability. Interestingly, inactivation ofpoxcauses a dramatic reduction in H2O2production from lactate, suggesting a synergistic action of the two oxidases in converting lactate into H2O2. In anin vitrotwo-species biofilm experiment, thepoxmutant ofS. oligofermentansfailed to inhibitS. mutanseven thoughloxwas active. In summary,S. oligofermentansdevelops a Pox-Lox synergy strategy to maximize its H2O2formation so as to win the interspecies competition.

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Model ecosystems with random nonlinear interspecies interactions

Physical Review E ◽

10.1103/physreve.70.061914 ◽

2004 ◽

Vol 70 (6) ◽

Cited By ~ 5

Author(s):

Danielle O. C. Santos ◽

José F. Fontanari

Keyword(s):

Interspecies Interactions ◽

Model Ecosystems

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