40 research outputs found
Teaching politics after the practice turn
The βpractice turnβ and its associated ontology, epistemology and methodology are now well established in political research. In this article, we identify and explore a corollary pedagogy. After outlining the principal components of practice theory, we compare case- and placement-based approaches to learning, designed to develop skills for use in practice. We introduce and describe our own rather different course, which we designed to develop an understanding of the nature of practice as such. We discuss its scope and dynamics, particularly with regard to power in the classroom, and identify broader opportunities and challenges for the development of practice-based pedagogy
Lipid analogs reveal features critical for hemolysis and diminish granadaene mediated Group B Streptococcus infection
Although certain microbial lipids are toxins, the structural features important for cytotoxicity
remain unknown. Increased functional understanding is essential for developing therapeutics
against toxic microbial lipids. Group B Streptococci (GBS) are bacteria associated with preterm
births, stillbirths, and severe infections in neonates and adults. GBS produce a pigmented,
cytotoxic lipid, known as granadaene. Despite its importance to all manifestations of
GBS disease, studies towards understanding granadaeneβs toxic activity are hindered by its
instability and insolubility in purified form. Here, we report the synthesis and screening of
lipid derivatives inspired by granadaene, which reveal features central to toxin function,
namely the polyene chain length. Furthermore, we show that vaccination with a non-toxic
synthetic analog confers the production of antibodies that inhibit granadaene-mediated
hemolysis ex vivo and diminish GBS infection in vivo. This work provides unique structural
and functional insight into granadaene and a strategy to mitigate GBS infection, which will be
relevant to other toxic lipids encoded by human pathogens.This work was supported by funding from the National Institutes of Health
Grants R01AI112619, R01AI133976, R01AI100989, and R21AI125907 and seed funds
from Seattle Childrens Research Institute to L.
Remodeling of the Streptococcus agalactiae Transcriptome in Response to Growth Temperature
BACKGROUND: To act as a commensal bacterium and a pathogen in humans and animals, Streptococcus agalactiae (group B streptococcus, GBS) must be able to monitor and adapt to different environmental conditions. Temperature variation is a one of the most commonly encountered variables. METHODOLOGY/PRINCIPAL FINDINGS: To understand the extent to which GBS modify gene expression in response to temperatures encountered in the various hosts, we conducted a whole genome transcriptome analysis of organisms grown at 30 degrees C and 40 degrees C. We identified extensive transcriptome remodeling at various stages of growth, especially in the stationary phase (significant transcript changes occurred for 25% of the genes). A large proportion of genes involved in metabolism was up-regulated at 30 degrees C in stationary phase. Conversely, genes up-regulated at 40 degrees C relative to 30 degrees C include those encoding virulence factors such as hemolysins and extracellular secreted proteins with LPXTG motifs. Over-expression of hemolysins was linked to larger zones of hemolysis and enhanced hemolytic activity at 40 degrees C. A key theme identified by our study was that genes involved in purine metabolism and iron acquisition were significantly up-regulated at 40 degrees C. CONCLUSION/SIGNIFICANCE: Growth of GBS in vitro at different temperatures resulted in extensive remodeling of the transcriptome, including genes encoding proven and putative virulence genes. The data provide extensive new leads for molecular pathogenesis research
Group B Streptococcal Ξ²-Hemolysin/Cytolysin Directly Impairs Cardiomyocyte Viability and Function
BACKGROUND: Group B Streptococcus (GBS) is a leading cause of neonatal sepsis where myocardial dysfunction is an important contributor to poor outcome. Here we study the effects of the GBS pore-forming beta-hemolysin/cytolysin (Bh/c) exotoxin on cardiomyocyte viability, contractility, and calcium transients. METHODOLOGY/PRINCIPAL FINDINGS: HL-1 cardiomyocytes exposed to intact wild-type (WT) or isogenic Deltabeta h/c mutant GBS, or to cell-free extracts from either strain, were assessed for viability by trypan blue exclusion and for apoptosis by TUNEL staining. Functionality of exposed cardiomyocytes was analyzed by visual quantitation of the rate and extent of contractility. Mitochondrial membrane polarization was measured in TMRE-loaded cells exposed to GBS beta h/c. Effects of GBS beta h/c on calcium transients were studied in fura-2AM-loaded primary rat ventricular cardiomyocytes. Exposure of HL-1 cardiomyocytes to either WT GBS or beta h/c extracts significantly reduced both rate and extent of contractility and later induced necrotic and apoptotic cell death. No effects on cardiomyocyte viability or function were observed after treatment with Deltabeta h/c mutant bacteria or extracts. The beta h/c toxin was associated with complete and rapid loss of detectable calcium transients in primary neonatal rat ventricular cardiomyocytes and induced a loss of mitochondrial membrane polarization. These effects on viability and function were abrogated by the beta h/c inhibitor, dipalmitoyl phosphatidylcholine (DPPC). CONCLUSIONS/SIGNIFICANCE: Our data show a rapid loss of cardiomyocyte viability and function induced by GBS beta h/c, and these deleterious effects are inhibited by DPPC, a normal constituent of human pulmonary surfactant.. These findings have clinical implications for the cardiac dysfunction observed in neonatal GBS infections
Sword and shield: Linked group B streptococcal Ξ²-hemolysin/cytolysin and carotenoid pigment function to subvert host phagocyte defense
Group B Streptococcus (GBS) is a major cause of pneumonia, bacteremia, and meningitis in neonates and has been found to persist inside host phagocytic cells. The pore-forming GBS Ξ²-hemolysin/cytolysin (Ξ²H/C) encoded by cylE is an important virulence factor as demonstrated in several in vivo models. Interestingly, cylE deletion results not only in the loss of Ξ²H/C activity, but also in the loss of a carotenoid pigment of unknown function. In this study, we sought to define the mechanism(s) by which cylE may contribute to GBS phagocyte resistance and increased virulence potential. We found that cylE-deficient GBS was more readily cleared from a mouse's bloodstream, human whole blood, and isolated macrophage and neutrophil cultures. Survival was linked to the ability of Ξ²H/C to induce cytolysis and apoptosis of the phagocytes. At a lower bacterial inoculum, cylE also contributed to enhanced survival within phagocytes that was attributed to the ability of carotenoid to shield GBS from oxidative damage. In oxidant killing assays, cylE mutants were shown to be more susceptible to hydrogen peroxide, hypochlorite, superoxide, and singlet oxygen. Together, these data suggest a mechanism by which the linked cylE-encoded phenotypes, Ξ²H/C (sword) and carotenoid (shield), act in partnership to thwart the immune phagocytic defenses
Thinking about think tanks in health care : a call for a new research agenda
Little sociological attention has been given to the role of think tanks in health policy and planning. Existing work in political science and public administration tends to define and categorise think tanks and situate them as a disinterested source of policy expertise. Despite the increasingly visible presence of think tanks in the world of health care, such work has done little to reveal how they operate, by whom and to what ends. Our article seeks to redress this firstly by examining why they have remained relatively hidden in academic analyses and secondly by advocating an interpretive approach that incorporates think tanks within the wider landscape of health policy and planning. In contrast to most existing literature, an interpretive approach acknowledges that much of the messy business of healthcare policy and planning remains hidden from view and that much can be gleaned by examining the range of organisations, actors, coalitions, everyday activities, artefacts and interactions that make up the think tank stage and that work together to shape health policy and planning. Given the paucity of research in this area, we urge the medical sociology community to open the field to further academic scrutiny
Ξ²-Hemolysin/cytolysin of Group B Streptococcus enhances host inflammation but is dispensable for establishment of urinary tract infection.
Group B Streptococcus (GBS; Streptococcus agalactiae) is a major human pathogen that disproportionately affects neonates and women in the peripartum period and is an emerging cause of infection in older adults. The primary toxin of GBS, Ξ²-hemolysin/cytolysin (Ξ²H/C), has a well-defined role in the pathogenesis of invasive disease, but its role in urinary tract infection (UTI) is unknown. Using both in vitro and in vivo models, we analyzed the importance of Ξ²H/C in GBS uropathogenesis. There were no significant differences in bacterial density from the bladders or kidneys from mice infected with wild-type or isogenic Ξ²H/C-deficient GBS, and competitive indices from co-infection experiments were near 1. Thus, Ξ²H/C is dispensable for the establishment of GBS-UTI. However, Ξ²H/C-sufficient GBS induced a more robust proinflammatory cytokine response in cultured bladder epithelial cells and in the urinary tracts of infected mice. Given the near ubiquity of Ξ²H/C-expressing strains in epidemiologic studies and the importance of local inflammation in dictating outcomes and sequelae of UTI, we hypothesize that Ξ²H/C-driven inflammatory signaling may be important in the clinical course of GBS-UTI