Target cell contact triggers expression and polarized transfer of Yersinia YopE cytotoxin into mammalian cells.

Rosqvist, Roland; Magnusson, Karl‐Eric; Wolf‐Watz, Hans

doi:10.1002/j.1460-2075.1994.tb06341.x

Cited by 557 publications

(658 citation statements)

References 41 publications

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“…Frithz-Lindsten, unpublished). This principle was first demonstrated for the Yop ( Yersinia outer protein) virulence determinants of Yersinia (Rosqvist et al, 1994;Sory and Cornelis, 1994) and infection of cells with this pathogen is also the most extensively studied model system for this mechanism. The secretion of Yops across the bacterial membranes is mediated by a type III secretion system (Salmond et al, 1993) encoded by the ysc genes (for a review, see Cornelis, 1992;Straley et al, 1993;Forsberg et al, 1994b).…”

Section: Introductionmentioning

confidence: 94%

YopK of Yersinia pseudotuberculosis controls translocation of Yop effectors across the eukaryotic cell membrane

Holmström

Petterson

Rosqvist

et al. 1997

Molecular Microbiology

127

161

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SummaryIntroduction of anti-host factors into eukaryotic cells by extracellular bacteria is a strategy evolved by several Gram-negative pathogens. In these pathogens, the transport of virulence proteins across the bacterial membranes is governed by closely related type III secretion systems. For pathogenic Yersinia, the protein transport across the eukaryotic cell membrane occurs by a polarized mechanism requiring two secreted proteins, YopB and YopD. YopB was recently shown to induce the formation of a pore in the eukaryotic cell membrane, and through this pore, translocation of Yop effectors is believed to occur (Hå kansson et al., 1996b). We have previously shown that YopK of Yersinia pseudotuberculosis is required for the development of a systemic infection in mice. Here, we have analysed the role of YopK in the virulence process in more detail. A yopK-mutant strain was found to induce a more rapid YopE-mediated cytotoxic response in HeLa cells as well as in MDCK-1 cells compared to the wild-type strain. We found that this was the result of a cell-contact-dependent increase in translocation of YopE into HeLa cells. In contrast, overexpression of YopK resulted in impaired translocation. In addition, we found that YopK also influenced the YopBdependent lytic effect on sheep erythrocytes as well as on HeLa cells. A yopK-mutant strain showed a higher lytic activity and the induced pore was larger

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Section: Introductionmentioning

confidence: 94%

YopK of Yersinia pseudotuberculosis controls translocation of Yop effectors across the eukaryotic cell membrane

Holmström

Petterson

Rosqvist

et al. 1997

Molecular Microbiology

127

161

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“…We recently discovered that (–)‐hopeaphenol ( 1 ), a tetramer of resveratrol ( 2 ) (Figure 1) isolated from the stem bark of Hopea hainanensis , inhibits the type III secretion system1 (T3SS) in Yersinia pseudotuberculosis and Pseudomonas aeruginosa 2. The conserved3 T3SS is critical for these pathogens to cause disease and therefore constitutes an attractive target for the development of new antibacterials 4.…”

Section: Introductionmentioning

confidence: 99%

Total Synthesis of the Resveratrol Oligomers (±)‐Ampelopsin B and (±)‐ϵ‐Viniferin

et al. 2015

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The total synthesis of the resveratrol dimers (±)‐ampelopsin B and (±)‐ϵ‐viniferin is reported. Highlights of the approach include the use of cyclopropylmethyl groups to protect aromatic alcohols. This group allows an acid promoted three‐step, one‐pot deprotection–epimerization–cyclization of an advanced intermediate to give (±)‐ampelopsin B. An important advantage with our strategy is the possibility of synthesizing analogs to these natural products to further study the chemistry and biology of resveratrol oligomers.

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“…Under these conditions, the cells display a growth arrest and secrete the Yops in high amounts. The YopN protein is a good candidate to be the sensor of the cell signal as the protein is located on the bacterial surface, and yopN mutants export the Yops in the absence of cell contact or Ca 2þ limitation (Forsberg et al, 1991;Rosqvist et al, 1994;Boland et al, 1996). Transcription of the yop genes is not only repressed by Ca 2þ but also by mutations in loci encoding components of the secretion machinery (Cornelis et al, 1987).…”

Section: Introductionmentioning

confidence: 99%

The outer membrane component, YscC, of the Yop secretion machinery of Yersinia enterocolitica forms a ring‐shaped multimeric complex

Koster

Bitter

Cock

et al. 1997

Molecular Microbiology

212

215

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SummaryThe YscC protein of Yersinia enterocolitica is essential for the secretion of anti-host factors, called Yops, into the extracellular environment. It belongs to a family of outer membrane proteins, collectively designated secretins, that participate in a variety of transport processes. YscC has been shown to exist as a stable oligomeric complex in the outer membrane. The production of the YscC complex is regulated by temperature and is reduced in strains carrying mutations in the yscN-U operon or in the virG gene. The VirG lipoprotein was shown to be required for efficient targeting of the complex to the outer membrane. Electron microscopy revealed that purified YscC complexes form ring-shaped structures of Ϸ 20 nm with an apparent central pore. Because of the architecture of the multimer, YscC appears to represent a novel type of channel-forming proteins in the bacterial outer membrane.

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Target cell contact triggers expression and polarized transfer of Yersinia YopE cytotoxin into mammalian cells.

Cited by 557 publications

References 41 publications

YopK of Yersinia pseudotuberculosis controls translocation of Yop effectors across the eukaryotic cell membrane

YopK of Yersinia pseudotuberculosis controls translocation of Yop effectors across the eukaryotic cell membrane

Total Synthesis of the Resveratrol Oligomers (±)‐Ampelopsin B and (±)‐ϵ‐Viniferin

The outer membrane component, YscC, of the Yop secretion machinery of Yersinia enterocolitica forms a ring‐shaped multimeric complex

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