Role of YopH in the suppression of tyrosine phosphorylation and respiratory burst activity in murine macrophages infected with <i>Yersinia enterocolitica</i>

Green, Simon P.; Hartland, Elizabeth L.; Robins‐Browne, Roy M.; Phillips, Wayne A.

doi:10.1002/jlb.57.6.972

Cited by 43 publications

(39 citation statements)

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“…TNF- is one of the most important proinflammatory cytokines, which plays a crucial role in limiting the severity of bacterial infection. In addition to YopP, YopM (an important virulence factor in Yersinia infection in mice) (40,41) interacts with protein kinase C-like 2 and ribosomal protein S6 kinase, which are also involved in proinflammatory signaling [42]. The suppression of proinflammatory factor production not only reduces the activation of NK cells and phagocytes, but also destroys the inflammatory environment that is very essential for the adaptive immune response [42].…”

Section: Negative Effects On the Activation Of Innate Cellular Districtmentioning

confidence: 99%

Role of immune response in Yersinia pestis infection

Amedei

Niccolai

Marino

et al. 2011

J Infect Dev Ctries

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Yersinia pestis (Y. Pestis) is an infamous pathogen causing plague pandemics throughout history and is a selected agent of bioterrorism threatening public health. Y. pestis was first isolated by Alexandre Yersin in 1894 in Hong Kong and in the following years from all continents. Plague is enzootic in different rodents and their fleas in Africa, North and South America, and Asia, including the Middle/Far East and ex-USSR countries. Comprehending the multifaceted interaction between Y. pestis and the host immune system will enable us to design more effective vaccines. Innate immune response and both components (humoral and cellular) of adaptive immune response contribute to host defense against Y. pestis infection, but the bacterium possesses different mechanisms to counteract the immune response. The review aims to analyze the role of immune response versus Yersinia pestis infection and to highlight the various stratagems adopted by Y. pestis to escape the immunological defenses.

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Section: Negative Effects On the Activation Of Innate Cellular Districtmentioning

confidence: 99%

Role of immune response in Yersinia pestis infection

Amedei

Niccolai

Marino

et al. 2011

J Infect Dev Ctries

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“…At least four Yops (YopH, YopE, YopT, and YopO) are involved in inhibiting the phagocytosis of yersiniae, either by interfering with the host cell actin regulation of Rho GTPases (YopE, YopT, and YopO) or specifically and rapidly inactivating host proteins associated with signaling from the receptor to actin (YopH) (1,2,6,39,77). Moreover, YopH can suppress the production of reactive oxygen intermediates by macrophages and PMNs (35).…”

Section: Defense Mechanism Of Bacteria Released From Macrophagesmentioning

confidence: 99%

Interaction between Yersinia pestis and the Host Immune System

Yang

2008

Infect Immun

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“…The type III secretion system is a highly conserved macromolecular machinery found in many pathogenic Gram-negative bacteria and is induced by contact with a eukaryotic cell to inject effector Yops into the cytoplasm of the target cells (21). In the host cell, the Yops disrupt signaling cascades responsible for initiating key immune functions, such as phagocytosis (22)(23)(24), respiratory burst (25,26), cytokine production, and lymphocyte activation (27). As a consequence, both the innate and adaptive immune responses are seriously impaired (28).…”

Section: From the Infectious And Inflammatory Disease Center The Burmentioning

confidence: 99%

Inhibition of Yersinia Tyrosine Phosphatase by Furanyl Salicylate Compounds

Tautz

Bruckner

Sareth

et al. 2005

Journal of Biological Chemistry

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To avoid detection and targeting by the immune system, the plague-causing bacterium Yersinia pestis uses a type III secretion system to deliver a set of inhibitory proteins into the cytoplasm of immune cells. One of these proteins is an exceptionally active tyrosine phosphatase termed YopH, which paralyzes lymphocytes and macrophages by dephosphorylating critical tyrosine kinases and signal transduction molecules. Because Y. pestis strains lacking YopH are avirulent, we set out to develop small molecule inhibitors for YopH. We used a novel and cost-effective approach, in which leads from a chemical library screening were analyzed and computationally docked into the crystal structure of YopH. This resulted in the identification of a series of novel YopH inhibitors with nanomolar K i values, as well as the structural basis for inhibition. Our inhibitors lack the polar phosphate-mimicking moiety of rationally designed tyrosine phosphatase inhibitors, and they readily entered live cells and rescued them from YopHinduced tyrosine dephosphorylation, signaling paralysis, and cell death. These inhibitors may become useful for treating the lethal infection by Y. pestis.

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Role of YopH in the suppression of tyrosine phosphorylation and respiratory burst activity in murine macrophages infected with Yersinia enterocolitica

Cited by 43 publications

References 0 publications

Role of immune response in Yersinia pestis infection

Role of immune response in Yersinia pestis infection

Interaction between Yersinia pestis and the Host Immune System

Inhibition of Yersinia Tyrosine Phosphatase by Furanyl Salicylate Compounds

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