Publications (40) View all
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Article: The enterohemorrhagic Escherichia coli effector protein NleF binds mammalian Tmp21.
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ABSTRACT: The human pathogens enterohemorrhagic and enteropathogenic Escherichia coli (EHEC and EPEC), as well as the mouse pathogen Citrobacter rodentium encode type III secretion system (T3SS) effector proteins to promote their survival in the infected host. The mechanisms of action and the host targets of T3SS effectors are under active investigation because of their importance to bacterial virulence. The non-locus of enterocyte effacement (LEE)-encoded protein F, NleF, contributes to E. coli and C. rodentium colonization of piglets and mice, respectively. Here we sought to characterize the host binding partners of NleF. Using a yeast two-hybrid screen, we identified Tmp21, a type-I integral membrane protein and COPI-vesicle receptor involved in trans-Golgi network function, as an NleF-binding partner. We confirmed this interaction using immunoprecipitation and bimolecular fluorescence complementation (BiFC). We expressed a temperature-sensitive vesicular stomatitis virus glycoprotein (tsVSVG) to monitor protein trafficking and determined that NleF slows the intracellular trafficking of tsVSVG from the endoplasmic reticulum to the Golgi.Veterinary Microbiology 02/2013; · 3.33 Impact Factor -
Article: NleB, a Bacterial Effector with Glycosyltransferase Activity, Targets GAPDH Function to Inhibit NF-κB Activation.
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ABSTRACT: Modulation of NF-κB-dependent responses is critical to the success of attaching/effacing (A/E) human pathogenic E. coli (EPEC and EHEC) and the natural mouse pathogen Citrobacter rodentium. NleB, a highly conserved type III secretion system effector of A/E pathogens, suppresses NF-κB activation, but the underlying mechanisms are unknown. We identified the mammalian glycolysis enzyme glyceraldehyde 3-phosphate dehydrogenase (GAPDH) as an NleB-interacting protein. Further, we discovered that GAPDH interacts with the TNF receptor-associated factor 2 (TRAF2), a protein required for TNF-α-mediated NF-κB activation, and regulates TRAF2 polyubiquitination. During infection, NleB functions as a translocated N-acetyl-D-glucosamine (O-GlcNAc) transferase that modifies GAPDH. NleB-mediated GAPDH O-GlcNAcylation disrupts the TRAF2-GAPDH interaction to suppress TRAF2 polyubiquitination and NF-κB activation. Eliminating NleB O-GlcNAcylation activity attenuates C. rodentium colonization of mice. These data identify GAPDH as a TRAF2 signaling cofactor and reveal a virulence strategy employed by A/E pathogens to inhibit NF-κB-dependent host innate immune responses.Cell host & microbe 01/2013; 13(1):87-99. · 13.02 Impact Factor -
Article: Enterotoxigenic Escherichia coli (ETEC) prevents host NF-κB activation by targeting IκBα polyubiquitination.
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ABSTRACT: The nuclear factor-κB (NF-κB) pathway regulates innate immune responses to infection. NF-κB is activated after pathogen-associated molecular patterns are detected, leading to the induction of pro-inflammatory host responses. As a countermeasure, bacterial pathogens have evolved mechanisms to subvert NF-κB signaling. Enterotoxigenic Escherichia coli (ETEC) causes diarrheal disease and significant morbidity and mortality to humans in developing nations. The extent to which this important pathogen subverts innate immune responses by directly targeting the NF-κB pathway is an understudied topic. Here we report that ETEC secretes a heat-stable, proteinaceous factor that blocks NF-κB signaling normally induced by TNF, interleukin-1β, and flagellin. Pre-treating intestinal epithelial cells with ETEC supernatant significantly blocked the degradation of the NF-κB inhibitor IκBα, without affecting IκBα phosphorylation. Data from immunoprecipitation experiments suggest the ETEC factor functions by preventing IκBα polyubiquitination. Inhibiting clathrin function blocked the activity of the secreted ETEC factor, suggesting this yet-uncharacterized activity may utilize clathrin-dependent endocytosis to enter host cells. These data suggest that ETEC evades the host innate immune response by directly modulating NF-κB signaling.Infection and immunity 10/2012; · 4.21 Impact Factor -
Article: Application of a split luciferase complementation assay for the detection of viral protein-protein interactions.
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ABSTRACT: Intraviral protein-protein interactions are critical for virus survival in the host. Discovery of such interactions is important to understand molecular mechanisms of viral replication and pathogenesis. The development of a cell-based assay that can be employed to examine systematically viral protein interactions is described. The method, known as the split luciferase complementation assay (SLCA), is based on the principle that N- and C-terminal domains of luciferase alone do not emit luminescence; however, if fused to interacting proteins the two non-functional halves can be brought into close enough proximity through a specific protein-protein interaction to restore the functions of the enzyme and emit detectable light. The well-studied influenza B polymerase acidic protein (PA) and basic protein 1 (PB1) interaction was used as a model system to develop the assay. Consistent with previous studies, a strong PA-PB1 interaction was demonstrated in the assay. The PA-PB1 interaction was also disrupted by single amino acid mutations in the N-terminal domain of PB1 that is responsible for binding PA. The described SLCA is highly specific and easy to perform, and thus may be useful for studying protein-protein interactions in viral diseases.Journal of virological methods 05/2011; 176(1-2):108-11. · 2.13 Impact Factor -
Article: IKKβ phosphorylation regulates RPS3 nuclear translocation and NF-κB function during infection with Escherichia coli strain O157:H7.
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ABSTRACT: NF-κB is a major gene regulator in immune responses, and ribosomal protein S3 (RPS3) is an NF-κB subunit that directs specific gene transcription. However, it is unknown how nuclear translocation of RPS3 is regulated. Here we report that phosphorylation of RPS3 Ser209 by the kinase IKKβ was crucial for nuclear localization of RPS3 in response to activating stimuli. Moreover, virulence protein NleH1 of the foodborne pathogen Escherichia coli strain O157:H7 specifically inhibited phosphorylation of RPS3 Ser209 and blocked RPS3 function, thereby promoting bacterial colonization and diarrhea but resulting in less mortality in a gnotobiotic piglet-infection model. Thus, the IKKβ-dependent modification of a specific amino acid in RPS3 promoted specific NF-κB functions that underlie the molecular pathogenetic mechanisms of E. coli O157:H7.Nature Immunology 03/2011; 12(4):335-43. · 26.01 Impact Factor
