Pathogenic H elicobacter pylori strains translocate DNA and activate TLR9 via the cancer-associated cag type IV secretion system

Varga, Matthew G.; Shaffer, Carrie L.; Sierra, Johanna C.; Suárez, Giovanni; Piazuelo, M. Blanca; Whitaker, M E; Romero–Gallo, Judith; Krishna, U. Murali; Delgado, Alberto; Gómez, Martín; Good, James A. D.; Almqvist, Fredrik; Skaar, Eric P.; Correa, Pelayo; Wilson, Keith T.; Hadjifrangiskou, Maria; Peek, Richard M.

doi:10.1038/onc.2016.158

Cited by 101 publications

(128 citation statements)

References 64 publications

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“…Studies have highlighted the critical role of the T4SS in this process (Fischer et al 2001; Belogolova et al 2013; Varga et al 2016) (Fig. 2.1).…”

Section: The Chemokine Cxcl8mentioning

confidence: 99%

“…2.1). Although several bacterial components, such as peptidoglycan (Viala et al 2004) or DNA (Varga et al 2016), can be translocated into host cells through the T4SS and induce an innate immune response, the role of CagA has been evidenced by the following discoveries: i) H. pylori cagA -positive strains induce more CXCL8 than cagA -negative strains (Crabtree et al 1994; Salih et al 2014); ii) cagA mutant strains have reduced ability to stimulate CXCL8 (Brandt et al 2005; Gobert et al 2013); iii) ectopic expression of CagA in gastric epithelial cells stimulates CXCL8 expression (Kim et al 2006); and iv) inhibition of CagA phosphorylation decreases CXCL8 mRNA expression (Gobert et al 2013). Nevertheless, the effect of CagA on CXCL8 induction has not been observed in some studies (Sharma et al 1995), and the various results could be explained by differences in the type of host cells, in the H. pylori strains that have been used, and in the time of infection.…”

Section: The Chemokine Cxcl8mentioning

confidence: 99%

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Human and Helicobacter pylori Interactions Determine the Outcome of Gastric Diseases

Gobert

Wilson

2017

Current Topics in Microbiology and Immunology

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The innate immune response is a critical hallmark of Helicobacter pylori infection. Epithelial and myeloid cells produce effectors, including the chemokine CXCL8, reactive oxygen species (ROS), and nitric oxide (NO), in response to bacterial components. Mechanistic and epidemiologic studies have emphasized that dysregulated and persistent release of these products leads to the development of chronic inflammation and to the molecular and cellular events related to carcinogenesis. Moreover, investigations in H. pylori-infected patients about polymorphisms of the genes encoding CXCL8 and inducible NO synthase, and epigenetic control of the ROS-producing enzyme spermine oxidase, have further proven that overproduction of these molecules impacts the severity of gastric diseases. Lastly, the critical effect of the crosstalk between the human host and the infecting bacterium in determining the severity of H. pylori-related diseases has been supported by phylogenetic analysis of the human population and their H. pylori isolates in geographic areas with varying clinical and pathologic outcomes of the infection.

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“…Studies have highlighted the critical role of the T4SS in this process (Fischer et al 2001; Belogolova et al 2013; Varga et al 2016) (Fig. 2.1).…”

Section: The Chemokine Cxcl8mentioning

confidence: 99%

Section: The Chemokine Cxcl8mentioning

confidence: 99%

Human and Helicobacter pylori Interactions Determine the Outcome of Gastric Diseases

Gobert

Wilson

2017

Current Topics in Microbiology and Immunology

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“…One specific cancer-linked H. pylori locus is the cag pathogenicity island ( cag PAI), which encodes a type IV secretion system (T4SS) that translocates the oncoprotein CagA, peptidoglycan, and DNA into host cells (4-6). A structural component of the cag T4SS is CagY, which is required for NF-κB-driven pro-inflammatory cytokine secretion.…”

Section: Introductionmentioning

confidence: 99%

Genetic Manipulation of Helicobacter pylori Virulence Function by Host Carcinogenic Phenotypes

et al. 2017

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Helicobacter pylori is the strongest risk factor for gastric adenocarcinoma, yet only a minority of infected persons ever develop this malignancy. One cancer-linked locus is the cag type 4 secretion system (cagT4SS), which translocates an oncoprotein into host cells. A structural component of the cagT4SS is CagY, which become rapidly altered during in vivo adaptation in mice and rhesus monkeys, rendering the cagT4SS nonfunctional; however, these models rarely develop gastric cancer. We previously demonstrated that the H. pylori cag+ strain 7.13 rapidly induces gastric cancer in Mongolian gerbils. We now use this model, in conjunction with samples from patients with premalignant lesions, to define the effects of a carcinogenic host environment on the virulence phenotype of H. pylori to understand how only a subset of infected individuals develop cancer. H. pylori cagY sequence differences and cagT4SS function were directly related to the severity of inflammation in human gastric mucosa in either a synchronous or metachronous manner. Serial infections of Mongolian gerbils with H. pylori strain 7.13 identified an oscillating pattern of cagT4SS function. The development of dysplasia or cancer selected for attenuated virulence phenotypes, but robust cagT4SS function could be restored upon infection of new hosts. Changes in the genetic composition of cagY mirrored cagT4SS function, although the mechanisms of cagY alterations differed in human isolates (mutations) versus gerbil isolates (addition/deletion of motifs). These results indicate that host carcinogenic phenotypes modify cagT4SS function via altering cagY, allowing the bacteria to persist and induce carcinogenic consequences in the gastric niche.

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“…DNA transfer events between bacterial species or into the extracellular milieu are very common; however, transkingdom DNA transfer events are rare. To date, there are only a few bacterial species capable of translocating DNA into a eukaryotic host including: Agrobacterium tumefaciens , E. coli (Waters 2001) (Fernandez-Gonzalez et al 2011), Bartonella henselae (Schroder et al 2011), and most recently H. pylori (Varga et al 2016). …”

Section: Dna Translocation Strategiesmentioning

confidence: 99%

“…The H. pylori cag T4SS retains significant homology to the archetypal T4SS of A. tumefaciens and has been shown to translocate the effector molecules CagA and peptidoglycan into host cells and has recently been shown to translocate DNA as well (Odenbreit et al 2000; Viala et al 2004; Varga et al 2016). …”

Section: Dna Translocation Strategiesmentioning

confidence: 99%

DNA Transfer and Toll-like Receptor Modulation by Helicobacter pylori

Varga

Peek

2017

Current Topics in Microbiology and Immunology

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Helicobacter pylori is the most common bacterial infection worldwide, and virtually all infected persons develop co-existing gastritis. H. pylori is able to send and receive signals from the gastric mucosa, which enables both host and microbe to engage in a dynamic equilibrium. In order to persist within the human host, H. pylori has adopted dichotomous strategies to both induce inflammation as a means of liberating nutrients while simultaneously tempering the immune response to augment its survival. Toll-like receptors (TLRs) and Nod proteins are innate immune receptors that are present in epithelial cells and represent the first line of defense against pathogens. To ensure persistence, H. pylori manipulates TLR-mediated defenses using strategies that include rendering its LPS and flagellin to be non-stimulatory to TLR4 and TLR5, respectively; translocating peptidoglycan into host cells to induce NOD1-mediated anti-inflammatory responses; and translocating DNA into host cells to induce TLR9 activation.

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Pathogenic H elicobacter pylori strains translocate DNA and activate TLR9 via the cancer-associated cag type IV secretion system

Cited by 101 publications

References 64 publications

Human and Helicobacter pylori Interactions Determine the Outcome of Gastric Diseases

Human and Helicobacter pylori Interactions Determine the Outcome of Gastric Diseases

Genetic Manipulation of Helicobacter pylori Virulence Function by Host Carcinogenic Phenotypes

DNA Transfer and Toll-like Receptor Modulation by Helicobacter pylori

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