Your search keyword '"Iriarte, M."' showing total 6 results

1. Type III secretion translocon assemblies that attenuate Yersinia virulence.

Author

Costa, Tiago R. D., Amer, Ayad A. A., Farag, Salah I., Wolf‐Watz, Hans, Fällman, Maria, Fahlgren, Anna, Edgren, Tomas, and Francis, Matthew S.

Subjects

YERSINIA, MICROBIAL virulence, HYDROPHILIC compounds, EUKARYOTIC cells, GENETIC mutation, LABORATORY mice

Abstract

Type III secretion enables bacteria to intoxicate eukaryotic cells with anti-host effectors. A class of secreted cargo are the two hydrophobic translocators that form a translocon pore in the host cell plasma membrane through which the translocated effectors may gain cellular entry. In pathogenic Yersinia, YopB and YopD shape this translocon pore. Here, four in cis yopD mutations were constructed to disrupt a predicted α-helix motif at the C-terminus. Mutants YopDI262P and YopDK267P poorly localized Yop effectors into target eukaryotic cells and failed to resist uptake and killing by immune cells. These defects were due to deficiencies in host-membrane insertion of the YopD- YopB translocon. Mutants YopDA263P and YopDA270P had no measurable in vitro translocation defect, even though they formed smaller translocon pores in erythrocyte membranes. Despite this, all four mutants were attenuated in a mouse infection model. Hence, YopD variants have been generated that can spawn translocons capable of targeting effectors in vitro, yet were bereft of any lethal effect in vivo. Therefore, Yop translocators may possess other in vivo functions that extend beyond being a portal for effector delivery into host cells. [ABSTRACT FROM AUTHOR]

Published

2013

2. Yersinia outer proteins: Yops.

Author

Trosky, Jennifer E., Liverman, Amy D. B., and Orth, Kim

Subjects

YERSINIA, PATHOGENIC bacteria, PLASMIDS, MICROBIAL virulence, INFECTION, CYTOSKELETON, SECRETION, BIOLOGICAL transport, MECHANICS (Physics)

Abstract

The pathogenic bacteria Yersinia spp. contain a virulence plasmid that encodes a type III secretion system and effectors. During infection, four of the effectors target the actin cytoskeleton, crippling the phagocytic machinery in the infected cell. The remaining two effectors dampen the innate immune response by targeting important signalling pathways. Although the biochemical activity for each of these effectors is known, the mechanisms involved in their ordered secretion and delivery remain elusive. [ABSTRACT FROM AUTHOR]

Published

2008

3. Comparison of YopE and YopT activities in counteracting host signalling responses to Yersinia pseudotuberculosis infection.

Author

Viboud, Gloria I., Meía, Edison, and Bliska, James B.

Subjects

YERSINIA pseudotuberculosis, HOST-parasite relationships, PROTEINS, LABORATORY mice, YERSINIA, BIOMOLECULES

Abstract

Pathogenic Yersinia species share a type III secretion system that translocates Yop effector proteins into host cells to counteract signalling responses during infection. Two of these effectors, YopE and YopT, downregulate Rho GTPases by different mechanisms. Here, we investigate whether YopT and YopE are functionally redundant by dissecting the contribution of these two effectors to the pathogenesis of Yersinia pseudotuberculosis in a mouse infection and tissue culture model. Four days after oral infection, a YopE+T- strain and a YopE+T+ strain colonized spleens of mice at similar levels, suggesting that YopT is not required for virulence. In contrast, spleen colonization by a YopE-T- strain was significantly reduced. A YopE-T+ strain colonized spleen at levels comparable to those of the YopE+T- strain, arguing that YopT can promote virulence in the absence of YopE. Infection of HeLa cells with a YopE-T- strain expressing either YopE or YopT showed that YopE had a stronger antiphagocytic activity than YopT. Expression of YopE strongly inhibited activation of JNK, ERK and NFκB, and prevented production of IL-8; whereas YopT moderately inhibited these responses. On the other hand, pore formation was inhibited equally by YopE or YopT. In conclusion, YopE is a potent inhibitor of infection-induced signalling cascades, and YopT can only partially compensate for the loss of YopE. [ABSTRACT FROM AUTHOR]

Published

2006

4. Functional analysis of the YopE GTPase-activating protein (GAP) activity of Yersinia pseudotuberculosis.

Author

Aili, Margareta, Isaksson, Elin L., Hallberg, Bengt, Wolf-Watz, Hans, and Rosqvist, Roland

Subjects

YERSINIA pseudotuberculosis, YERSINIA, YERSINIA diseases, PROTEINS, PATHOGENIC microorganisms

Abstract

YopE of Yersinia pseudotuberculosis inactivates three members of the small RhoGTPase family (RhoA, Rac1 and Cdc42) in vitro and mutation of a critical arginine abolishes both in vitro GTPase-activating protein (GAP) activity and cytotoxicity towards HeLa cells, and renders the pathogen avirulent in a mouse model. To understand the functional role of YopE, in vivo studies of the GAP activity in infected eukaryotic cells were conducted. Wild-type YopE inactivated Rac1 as early as 5 min after infection whereas RhoA was downregulated about 30 min after infection. No effect of YopE was found on the activation state of Cdc42 in Yersinia-infected cells. Single-amino-acid substitution mutants of YopE revealed two different phenotypes: (i) mutants with significantly lowered in vivo GAP activity towards RhoA and Rac1 displaying full virulence in mice, and (ii) avirulent mutants with wild-type in vivo GAP activity towards RhoA and Rac1. Our results show that Cdc42 is not an in vivo target for YopE and that YopE interacts preferentially with Rac1, and to a lesser extent with RhoA, during in vivo conditions. Surprisingly, we present results suggesting that these interactions are not a prerequisite to establish infection in mice. Finally, we show that avirulent yopE mutants translocate YopE in about sixfold higher amount compared with wild type. This raises the question whether YopE’s primary function is to sense the level of translocation rather than being directly involved in downregulation of the host defence. [ABSTRACT FROM AUTHOR]

Published

2006

5. Substrate recognition of type III secretion machines –testing the RNA signal hypothesis.

Author

Sorg, Joseph A., Miller, Nathan C., and Schneewind, Olaf

Subjects

GRAM-negative bacteria, CYTOPLASM, YERSINIA, ENTEROBACTERIACEAE, MESSENGER RNA, PROTEINS

Abstract

Secretion by the type III pathway of Gram-negative microbes transports polypeptides into the extracellular medium or into the cytoplasm of host cells during infection. In pathogenic Yersinia spp., type III machines recognize 14 different Yop protein substrates via discrete signals genetically encoded in 7–15 codons at the 5′ portion of yop genes. Although the signals necessary and sufficient for substrate recognition of Yop proteins have been mapped, a clear mechanism on how proteins are recognized by the machinery and then initiated into the transport pathway has not yet emerged. As synonymous substitutions, mutations that alter mRNA sequence but not codon specificity, affect the function of some secretion signals, recent work with several different microbes tested the hypothesis of an RNA-encoded secretion signal for polypeptides that travel the type III pathway. This review summarizes experimental observations and mechanistic models for substrate recognition in this field. [ABSTRACT FROM AUTHOR]

Published

2005

6. Cell invasion and IL-8 production pathways initiated by YadA ofYersinia pseudotuberculosisrequire common signalling molecules (FAK, c-Src, Ras) and distinct cell factors.

Author

Eitel, Julia, Heise, Tanja, Thiesen, Ulla, and Dersch, Petra

Subjects

YERSINIA pseudotuberculosis, INTERLEUKIN-8, FOCAL adhesion kinase, MICROBIAL genetics, CYTOSKELETAL proteins, YERSINIA

Abstract

The YadA protein ofYersinia pseudotuberculosispromotes tight adhesion and invasion into mammalian cells throughβ1-integrins. In this work, we demonstrate that YadA also triggers the production of interleukin-8 (IL-8) in host cells and we identify intracellular signal transduction mechanisms involved in YadA-initiated cell invasion and/or IL-8 synthesis. Tyrosine protein kinases, including the focal adhesion kinase (FAK) and c-Src, as well as the small GTPase Ras, were shown to play a significant role in both YadA-promoted cell processes. YadA-mediated cell contact led to autophosphorylation of FAK at position Tyr397 and induced GTP-loading of Ras. Furthermore, IL-8 production and invasion induced by YadA were strongly reduced in FAK- and c-Src-deficient cells and in cells overexpressing dominant interfering forms of FAK, c-Src or Ras. We also demonstrate that YadA activates the Ras-dependent Raf–MEK1/2–ERK1/2 pathway and mitogen-activated protein kinases (MAPKs) p38 and JNK. Moreover, inhibition of ERK1/2 by pharmacological agents or overexpression of dominant negative FAK, c-Src or Ras abrogated IL-8 release, whereas invasion remained unaffected. In contrast, actin polymerization and phosphatidylinositol 3-kinase (PI3K) activity is essential for YadA-promoted cell entry, but not for cytokine secretion. We conclude that YadA triggers FAK–Src complex formation and subsequent Ras activation, which leads to the stimulation of MAPKs-dependent IL-8 production or to PI3K-dependent invasion. [ABSTRACT FROM AUTHOR]

Published

2005