30 research outputs found

    Hijacking host cell highways: manipulation of the host actin cytoskeleton by obligate intracellular bacterial pathogens

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    Intracellular bacterial pathogens replicate within eukaryotic cells and display unique adaptations that support key infection events including invasion, replication, immune evasion, and dissemination. From invasion to dissemination, all stages of the intracellular bacterial life cycle share the same three-dimensional cytosolic space containing the host cytoskeleton. For successful infection and replication, many pathogens hijack the cytoskeleton using effector proteins introduced into the host cytosol by specialized secretion systems. A subset of effectors contains eukaryotic-like motifs that mimic host proteins to exploit signaling and modify specific cytoskeletal components such as actin and microtubules. Cytoskeletal rearrangement promotes numerous events that are beneficial to the pathogen, including internalization of bacteria, subversion of cell intrinsic immunity, structural support for bacteria-containing vacuoles, altered vesicular trafficking, actin-dependent bacterial movement, and pathogen dissemination. This review highlights a diverse group of obligate intracellular bacterial pathogens that manipulate the host cytoskeleton to thrive within eukaryotic cells and discusses underlying molecular mechanisms that promote these dynamic host-pathogen interactions

    Dining in: intracellular bacterial pathogen interplay with autophagy

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    Intracellular bacterial pathogens have evolved many ways to manipulate host cells for successful infection. Many of these pathogens use specialized secretion systems to inject bacterial proteins into the host cytosol that manipulate cellular processes to favor infection. Autophagy is a eukaryotic cellular remodeling process with a critical role in many diseases, including bacterial clearance. A growing field of research highlights mechanisms used by intracellular bacteria to manipulate autophagy as a pro-survival strategy. This review focuses on a select group of bacterial pathogens with diverse intracellular lifestyles that exploit autophagy-derived nutrients and membrane for survival. This group of pathogens uses secretion systems and specific effectors to subvert distinct components of autophagy. By understanding how intracellular pathogens manipulate autophagy, we gain insight not only into bacterial pathogenesis but also host cell signaling and autophagolysosome maturation

    Neighborhood Planning through Community Service-Learning: The Empowerment of East Sprague Neighborhood Residents in Spokane, Washington

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    This essay explores Eastern Washington University\u27s East Central Neighborhood Partnership Center project, which utilized coordinated community service-learning classes and internships to create a neighborhood revitalization plan in partnership with a neighborhood council and community-based organizations. The author explores the ways in which the long-term relationship between the university and neighborhood organizations effectively promoted community service-learning classes across disciplines and expanded community participation to address community needs and to build community empowerment

    Evaluation of IL-1 blockade as a host-directed therapy for tuberculosis in mice and macaques [preprint]

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    Full author list omitted for brevity. For the full list of authors, see article.In 2017, there were over 550,000 estimated new cases of multi-drug/rifampicin resistant tuberculosis (MDR/RR-TB), emphasizing a need for new treatment strategies. Linezolid (LZD) is a potent antibiotic for antibiotic-resistant Gram-positive infections and is an effective treatment for TB. However, extended LZD use can lead to LZD-associated host toxicities, most commonly bone marrow suppression. LZD toxicities may be mediated by IL-1, a pathway important for early immunity during M. tuberculosis infection that later contributes to pathology. We hypothesized LZD efficacy could be enhanced by modulation of IL-1 pathway to reduce BM toxicity and TB associated-inflammation. We used two animal models of TB to test our hypothesis, mice and cynomolgus macaques. Antagonizing IL-1 in chronically-infected mice reduced lung neutrophil numbers and partially restored the erythroid progenitor populations that are depleted by LZD. In macaques, we found no conclusive evidence of BM suppression associated with LZD, indicating our treatment time may have been short enough to avoid the toxicities observed in humans. Though treatment was only 1 month, the majority of granulomas were sterilized with reduced inflammation (assessed by PET/CT) in animals treated with both LZD and IL-1 receptor antagonist (IL-1Rn). However, overall lung inflammation was significantly reduced in macaques treated with both IL-1Rn and LZD, compared to LZD alone. Importantly, IL-1Rn administration did not noticeably impair the host response against Mtb or LZD efficacy in either animal model. Together, our data support that inhibition of IL-1 in combination with LZD has potential to be an effective HDT for TB

    Bulletin No. 34 Supplement. Bibliography of Minnesota Geology

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    See also Bulletin 34The following bibliography is limited to titles on the geology of Minnesota and is intended to supplement M. G. S. Bulletin 34, Bibliography of Minnesota Geology through 1951. This supplement covers the period from 1951-1961 plus some items that were missed in the first bibliography. Most of the titles have been taken from Bibliography of North American Geology with some references found in other lists and by searching through periodicals. Thanks are extended for the aid given by the faculty of the Department of Geology of the University of Minnesota. Special assistance, suggestions, and comments were provided by Miss Theodora Melone, co-author of the Bibliography of Minnesota Geology, M. G. S. Bulletin 34, and librarian of the Winchell Library of Geology, and to her the compilers are deeply indebted. Special appreciation is also extended to Charlene Hirsch and Marilyn Reinke for their helpful work in typing and proofreading this Supplement.Splettstoesser, John F.; Sloan, Sally A.. (1962). Bulletin No. 34 Supplement. Bibliography of Minnesota Geology. Retrieved from the University Digital Conservancy, https://hdl.handle.net/11299/57010

    Evaluation of IL-1 Blockade as an Adjunct to Linezolid Therapy for Tuberculosis in Mice and Macaques

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    In 2017 over 550,000 estimated new cases of multi-drug/rifampicin resistant tuberculosis (MDR/RR-TB) occurred, emphasizing a need for new treatment strategies. Linezolid (LZD) is a potent antibiotic for drug-resistant Gram-positive infections and is an effective treatment for TB. However, extended LZD use can lead to LZD-associated host toxicities, most commonly bone marrow suppression. LZD toxicities may be mediated by IL-1, an inflammatory pathway important for early immunity during M. tuberculosis infection. However, IL-1 can contribute to pathology and disease severity late in TB progression. Since IL-1 may contribute to LZD toxicity and does influence TB pathology, we targeted this pathway with a potential host-directed therapy (HDT). We hypothesized LZD efficacy could be enhanced by modulation of IL-1 pathway to reduce bone marrow toxicity and TB associated-inflammation. We used two animal models of TB to test our hypothesis, a TB-susceptible mouse model and clinically relevant cynomolgus macaques. Antagonizing IL-1 in mice with established infection reduced lung neutrophil numbers and partially restored the erythroid progenitor populations that are depleted by LZD. In macaques, we found no conclusive evidence of bone marrow suppression associated with LZD, indicating our treatment time may have been short enough to avoid the toxicities observed in humans. Though treatment was only 4 weeks (the FDA approved regimen at the time of study), we observed sterilization of the majority of granulomas regardless of co-administration of the FDA-approved IL-1 receptor antagonist (IL-1Rn), also known as Anakinra. However, total lung inflammation was significantly reduced in macaques treated with IL-1Rn and LZD compared to LZD alone. Importantly, IL-1Rn administration did not impair the host response against Mtb or LZD efficacy in either animal model. Together, our data support that inhibition of IL-1 in combination with LZD has potential to be an effective HDT for TB and the need for further research in this area

    Coxiella burnetii Subverts p62/Sequestosome 1 and Activates Nrf2 Signaling in Human Macrophages

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    ABSTRACT Coxiella burnetii is the causative agent of human Q fever, a debilitating flu-like illness that can progress to chronic disease presenting as endocarditis. Following inhalation, C. burnetii is phagocytosed by alveolar macrophages and generates a lysosome-like replication compartment termed the parasitophorous vacuole (PV). A type IV secretion system (T4SS) is required for PV generation and is one of the pathogen's few known virulence factors. We previously showed that C. burnetii actively recruits autophagosomes to the PV using the T4SS but does not alter macroautophagy. In the current study, we confirmed that the cargo receptor p62/sequestosome 1 (SQSTM-1) localizes near the PV in primary human alveolar macrophages infected with virulent C. burnetii . p62 and LC3 typically interact to select cargo for autophagy-mediated degradation, resulting in p62 degradation and LC3 recycling. However, in C. burnetii -infected macrophages, p62 was not degraded when cells were starved, suggesting that the pathogen stabilizes the protein. In addition, phosphorylated p62 levels increased, indicative of activation, during infection. Small interfering RNA experiments indicated that p62 is not absolutely required for intracellular growth, suggesting that the protein serves a signaling role during infection. Indeed, the Nrf2-Keap1 cytoprotective pathway was activated during infection, as evidenced by sustained maintenance of Nrf2 levels and translocation of the protein to the nucleus in C. burnetii -infected cells. Collectively, our studies identify a new p62-regulated host signaling pathway exploited by C. burnetii during intramacrophage growth. </jats:p

    Molecular evidence that phoronids are a subtaxon of brachiopods (Brachiopoda: Phoronata) and that genetic divergence of metazoan phyla began long before the early Cambrian

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    Concatenated SSU (18S) and partial LSU (28S) sequences (~2 kb) from 12 ingroup taxa, comprising 2 phoronids, 2 members of each of the craniid, discinid, and lingulid inarticulate brachiopod lineages, and 4 rhynchonellate, articulate brachiopods (2 rhynchonellides, 1 terebratulide and 1 terebratellide) were aligned with homologous sequences from 6 protostome, deuterostome and sponge outgroups (3964 sites). Regions of potentially ambiguous alignment were removed, and the resulting data (3275 sites, of which 377 were parsimony-informative and 635 variable) were analysed by parsimony, and by maximum and Bayesian likelihood using objectively selected models. There was no base composition heterogeneity. Relative rate tests led to the exclusion (from most analyses) of the more distant outgroups, with retention of the closer pectinid and polyplacophoran (chiton). Parsimony and likelihood bootstrap and Bayesian clade support values were generally high, but only likelihood analyses recovered all brachiopod indicator clades designated a priori. All analyses confirmed the monophyly of (brachiopods+phoronids) and identified phoronids as the sister-group of the three inarticulate brachiopod lineages. Consequently, a revised Linnean classification is proposed in which the subphylum Linguliformea comprises three classes: Lingulata, ‘Phoronata’ (the phoronids), and ‘Craniata’ (the current subphylum Craniiformea). Divergence times of all nodes were estimated by regression from node depths in non-parametrically rate-smoothed and other chronograms, calibrated against palaeontological data, with probable errors not less than 50 My. Only three predicted brachiopod divergence times disagree with palaeontological ages by more than the probable error, and a reasonable explanation exists for at least two. Pruning long-branched ingroups made scant difference to predicted divergence time estimates. The palaeontological age calibration and the existence of Lower Cambrian fossils of both main brachiopod clades together indicate that initial genetic divergence between brachiopod and molluscan (chiton) lineages occurred well before the Lower Cambrian, suggesting that much divergence between metazoan phyla took place in the Proterozoic

    Vasodilator-Stimulated Phosphoprotein Activity Is Required for Coxiella burnetii Growth in Human Macrophages.

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    Coxiella burnetii is an intracellular bacterial pathogen that causes human Q fever, an acute flu-like illness that can progress to chronic endocarditis and liver and bone infections. Humans are typically infected by aerosol-mediated transmission, and C. burnetii initially targets alveolar macrophages wherein the pathogen replicates in a phagolysosome-like niche known as the parasitophorous vacuole (PV). C. burnetii manipulates host cAMP-dependent protein kinase (PKA) signaling to promote PV formation, cell survival, and bacterial replication. In this study, we identified the actin regulatory protein vasodilator-stimulated phosphoprotein (VASP) as a PKA substrate that is increasingly phosphorylated at S157 and S239 during C. burnetii infection. Avirulent and virulent C. burnetii triggered increased levels of phosphorylated VASP in macrophage-like THP-1 cells and primary human alveolar macrophages, and this event required the Cα subunit of PKA. VASP phosphorylation also required bacterial protein synthesis and secretion of effector proteins via a type IV secretion system, indicating the pathogen actively triggers prolonged VASP phosphorylation. Optimal PV formation and intracellular bacterial replication required VASP activity, as siRNA-mediated depletion of VASP reduced PV size and bacterial growth. Interestingly, ectopic expression of a phospho-mimetic VASP (S239E) mutant protein prevented optimal PV formation, whereas VASP (S157E) mutant expression had no effect. VASP (S239E) expression also prevented trafficking of bead-containing phagosomes to the PV, indicating proper VASP activity is critical for heterotypic fusion events that control PV expansion in macrophages. Finally, expression of dominant negative VASP (S157A) in C. burnetii-infected cells impaired PV formation, confirming importance of the protein for proper infection. This study provides the first evidence of VASP manipulation by an intravacuolar bacterial pathogen via activation of PKA in human macrophages
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