Taking Control: Campylobacter jejuni Binding to Fibronectin Sets the Stage for Cellular Adherence and Invasion

Konkel, Michael E.; Talukdar, Prabhat K.; Negretti, Nicholas M.; Klappenbach, Courtney M

doi:10.3389/fmicb.2020.00564

Cited by 33 publications

(44 citation statements)

References 123 publications

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“…This is consistent with our result that a combination of adhesin mutant bacteria and the use of chloramphenicol led to the highest restoration of individual cell motility. The requirement of both adhesins and effector proteins for host cell changes is also consistent with the established model of C. jejuni invasion (Konkel et al, 2020;Ó Cróinín & Backert, 2012).…”

Section: Discussionsupporting

confidence: 83%

“…We have shown that C. jejuni manipulates the size, structure, and composition of focal adhesions. Based on previous research connecting C. jejuni adhesins to focal adhesion components (Konkel, Talukdar, Negretti, & Klappenbach, 2020;Krause-Gruszczynska et al, 2011;Monteville et al, 2003), we hypothesized that the CadF and FlpA adhesins could be responsible for driving the observed changes in the focal adhesion. First, we tested if the CadF and FlpA adhesins were required for signaling changes in the focal adhesion by examining paxillin phosphorylation.…”

Section: Mechanism Of C Jejuni Focal Adhesion Manipulationmentioning

confidence: 99%

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Campylobacter jejuni trigger signaling through host cell focal adhesions to inhibit cell motility and impede wound repair

Klappenbach

Negretti

Aaron

et al. 2021

Preprint

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Campylobacter jejuni is a major foodborne pathogen that exploits the focal adhesions of intestinal cells to promote invasion and cause severe gastritis. Focal adhesions are multiprotein complexes involved in bidirectional signaling between the actin cytoskeleton and the extracellular matrix. We investigated the dynamics of focal adhesion structure and function in C. jejuni infected cells. We found that C. jejuni infection of epithelial cells results in an increased focal adhesion size, enhanced signaling, and altered topology, as demonstrated by confocal microscopy, immunoblots, and super-resolution iPALM. Infection by C. jejuni also resulted in an increase in cell adhesion strength, reduced host cell motility, and reduction of collective host cell migration, a fundamental step in intestinal villi healing. Mechanistic studies demonstrated that the C. jejuni fibronectin-binding proteins CadF and FlpA are involved in the changes in focal adhesion dynamics and alterations in cell behavior. These findings are important because they provide a putative mechanistic basis for the restricted intestinal repair observed in C. jejuni-infected animals and raise the possibility that bacterial adhesins that target extracellular matrix components can alter cell behavior by manipulating focal adhesions.

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Section: Discussionsupporting

confidence: 83%

Section: Mechanism Of C Jejuni Focal Adhesion Manipulationmentioning

confidence: 99%

Campylobacter jejuni trigger signaling through host cell focal adhesions to inhibit cell motility and impede wound repair

Klappenbach

Negretti

Aaron

et al. 2021

Preprint

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“…C. jejuni adhesins seem to have alternate primary functions, yet some can target the same host receptor such as fibronectin. Once C. jejuni adheres to fibronectin on the basolateral side of human IECs, it is preceded by secondary steps that orchestrate cellular invasion ( Konkel et al., 2020 ). The most highly investigated adhesins in C. jejuni that exist almost in mutually exclusive fashion are Campylobacter adhesion to fibronectin (CadF) and fibronectin-like protein A (FlpA).…”

Section: Jejuni Putative Adhesinsmentioning

confidence: 99%

“…C. jejuni adhesins (CadF and FlpA) are highly conserved among C. jejuni strains. CadF and FlpA proteins are important for C. jejuni adherence to human IECs and colonization of chickens ( Konkel et al., 2020 ). A C. jejuni cadF mutant displays reduced ability to adhere to human IECs and chicken hepatoma cell line, LMH cells.…”

Section: Jejuni Putative Adhesinsmentioning

confidence: 99%

Revisiting Campylobacter jejuni Virulence and Fitness Factors: Role in Sensing, Adapting, and Competing

Elmi

Nasher

Dorrell

et al. 2021

Front. Cell. Infect. Microbiol.

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Campylobacter jejuni is the leading cause of bacterial foodborne gastroenteritis world wide and represents a major public health concern. Over the past two decades, significant progress in functional genomics, proteomics, enzymatic-based virulence profiling (EBVP), and the cellular biology of C. jejuni have improved our basic understanding of this important pathogen. We review key advances in our understanding of the multitude of emerging virulence factors that influence the outcome of C. jejuni–mediated infections. We highlight, the spatial and temporal dynamics of factors that promote C. jejuni to sense, adapt and survive in multiple hosts. Finally, we propose cohesive research directions to obtain a comprehensive understanding of C. jejuni virulence mechanisms.

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“…The Staphylococcus aureus proteins FnBP-A and FnBP-B were some of the first FnBPs described to indirectly interface with integrin receptors [ 210 ]. Other FnBPs include Streptococcus pyogenes SfbI/Protein F1 [ 208 ] as well as the well-characterized CadF and FlpA made by Campylobacter jejuni [ 204 ]. The gastrointestinal pathogen C. jejuni colonizes polarized intestinal epithelial cells, and this attachment requires fibronectin and CadF.…”

Section: Pathogenic Microbes Utilize “Outside–in” and “Inside–out”mentioning

confidence: 99%

Manipulation of Focal Adhesion Signaling by Pathogenic Microbes

Murphy

Brinkworth

2021

IJMS

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Focal adhesions (FAs) serve as dynamic signaling hubs within the cell. They connect intracellular actin to the extracellular matrix (ECM) and respond to environmental cues. In doing so, these structures facilitate important processes such as cell–ECM adhesion and migration. Pathogenic microbes often modify the host cell actin cytoskeleton in their pursuit of an ideal replicative niche or during invasion to facilitate uptake. As actin-interfacing structures, FA dynamics are also intimately tied to actin cytoskeletal organization. Indeed, exploitation of FAs is another avenue by which pathogenic microbes ensure their uptake, survival and dissemination. This is often achieved through the secretion of effector proteins which target specific protein components within the FA. Molecular mimicry of the leucine–aspartic acid (LD) motif or vinculin-binding domains (VBDs) commonly found within FA proteins is a common microbial strategy. Other effectors may induce post-translational modifications to FA proteins through the regulation of phosphorylation sites or proteolytic cleavage. In this review, we present an overview of the regulatory mechanisms governing host cell FAs, and provide examples of how pathogenic microbes have evolved to co-opt them to their own advantage. Recent technological advances pose exciting opportunities for delving deeper into the mechanistic details by which pathogenic microbes modify FAs.

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Taking Control: Campylobacter jejuni Binding to Fibronectin Sets the Stage for Cellular Adherence and Invasion

Cited by 33 publications

References 123 publications

Campylobacter jejuni trigger signaling through host cell focal adhesions to inhibit cell motility and impede wound repair

Campylobacter jejuni trigger signaling through host cell focal adhesions to inhibit cell motility and impede wound repair

Revisiting Campylobacter jejuni Virulence and Fitness Factors: Role in Sensing, Adapting, and Competing

Manipulation of Focal Adhesion Signaling by Pathogenic Microbes

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