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

1. Elucidating pathways of Toxoplasma gondii invasion in the gastrointestinal tract: involvement of the tight junction protein occludin.

Author

Weight, Caroline M., Jones, Emily J., Horn, Nikki, Wellner, Nikolaus, and Carding, Simon R.

Subjects

*GUT microbiome, *OCCLUDINS, *CELL junctions, *INTRACELLULAR pathogens, *TOXOPLASMA gondii, *TRANSMIGRATION

Abstract

Toxoplasma gondii is an obligate intracellular parasite infecting one third of the world's population. The small intestine is the parasite's primary route of infection, although the pathway of epithelium transmigration remains unclear. Using an in vitro invasion assay and live imaging we showed that T. gondii (RH) tachyzoites infect and transmigrate between adjacent intestinal epithelial cells in polarized monolayers without altering barrier integrity, despite eliciting the production of specific inflammatory mediators and chemokines. During invasion, T. gondii co-localized with occludin. Reducing the levels of endogenous cellular occludin with specific small interfering RNAs significantly reduced the ability of T. gondii to penetrate between and infect epithelial cells. Furthermore, an in vitro invasion and binding assays using recombinant occludin fragments established the capacity of the parasite to bind occludin and in particular to the extracellular loops of the protein. These findings provide evidence for occludin playing a role in the invasion of T. gondii in small intestinal epithelial cells. [ABSTRACT FROM AUTHOR]

Published

2015

2. Leukocyte–Epithelial Interactions and Mucosal Homeostasis.

Author

Matthews, Jason D., Weight, Caroline M., and Parkos, Charles A.

Subjects

*LEUCOCYTES, *EPITHELIAL cells, *CELL communication, *INFLAMMATORY bowel disease treatment, *MUCOUS membranes, *HOMEOSTASIS, *NEUTROPHILS

Abstract

Many common inflammatory disorders are characterized by the infiltration of neutrophils across epithelial lined (mucosal) surfaces resulting in disruption of critical barrier function that protects from microbes and noxious agents. In such conditions, disease symptoms are complex but directly related to leukocyte effects on the barrier and epithelial cell function. It is now highly regarded that cellular factors such as cytokines and receptor–ligand interactions mediating adhesion of leukocytes to epithelial cells have potent effects on epithelial homeostasis, defined by coordinated proliferation, migration, differentiation, and regulated cell shedding. Certain cytokines, for example, not only alter leukocyte interactions with epithelia through changes in expression of adhesion molecules but also affect barrier function through alterations in the composition and dynamics of intercellular junctions. In particular, inflammation-induced loss of many tight junction molecules, in part, can account for dysregulated cellular proliferation, migration, survival, and barrier function. This review will highlight how neutrophils interact with epithelial cells with particular focus on adhesion molecules involved and signaling events that play roles in regulating mucosal homeostasis and pathobiology. A better understanding of these molecular events may provide new ideas for therapeutics directed at attenuating consequences of pathologic inflammation of mucosal surfaces. [ABSTRACT FROM AUTHOR]

Published

2014

3. The protozoan pathogen Toxoplasma gondii targets the paracellular pathway to invade the intestinal epithelium.

Author

Weight, Caroline M. and Carding, Simon R.

Subjects

*PROTOZOAN diseases, *TOXOPLASMA gondii, *EPITHELIUM, *ETIOLOGY of diseases, *MICROBIAL proteins, *WATER consumption, *FETAL diseases

Abstract

Toxoplasma gondii is a ubiquitous parasite found within all mammals and birds worldwide that can cause fatal infections in immunocompromised persons and fetuses. The parasite causes chronic infections by residing in long-living tissues of the muscle and brain. T. gondii infects the host through contaminated meat and water consumption with the gastrointestinal tract (GI tract) being the first point of contact with the host. The mechanisms by which the parasite invades the host through the GI tract are unknown, although it has been suggested that the paracellular pathway is important for parasite dissemination. Studies indicate that epithelial tight junction-associated proteins are affected by T. gondii, although which junctional proteins are affected and the nature of host protein-parasite interactions have not been established. We have uncovered evidence that T. gondii influences the cellular distribution of occludin to transmigrate the intestinal epithelium and suggest how candidate binding partners can be identified. [ABSTRACT FROM AUTHOR]

Published

2012

4. Pneumolysin suppresses the initial macrophage pro‐inflammatory response to Streptococcus pneumoniae.

Author

Periselneris, Jimstan, Turner, Carolin T., Ercoli, Giuseppe, Szylar, Gabriella, Weight, Caroline M., Thurston, Teresa, Whelan, Matthew, Tomlinson, Gillian, Noursadeghi, Mahdad, and Brown, Jeremy

Subjects

*STREPTOCOCCUS pneumoniae, *MACROPHAGES, *LUNG infections, *BACTERIAL cells, *CELL death

Abstract

Published data for the Streptococcus pneumoniae virulence factor Pneumolysin (Ply) show contradictory effects on the host inflammatory response to infection. Ply has been shown to activate the inflammasome, but also can bind to MRC‐1 resulting in suppression of dendritic cell inflammatory responses. We have used an in vitro infection model of human monocyte‐derived macrophages (MDM), and a mouse model of pneumonia to clarify whether pro‐ or anti‐inflammatory effects dominate the effects of Ply on the initial macrophage inflammatory response to S. pneumoniae, and the consequences during early lung infection. We found that infection with S. pneumoniae expressing Ply suppressed tumour necrosis factor (TNF) and interleukin‐6 production by MDMs compared to cells infected with ply‐deficient S. pneumoniae. This effect was independent of bacterial effects on cell death. Transcriptional analysis demonstrated S. pneumoniae expressing Ply caused a qualitatively similar but quantitatively lower MDM transcriptional response to S. pneumoniae compared to ply‐deficient S. pneumoniae, with reduced expression of TNF and type I IFN inducible genes. Reduction of the MDM inflammatory response was prevented by inhibition of SOCS1. In the early lung infection mouse model, the TNF response to ply‐deficient S. pneumoniae was enhanced and bacterial clearance increased compared to infection with wild‐type S. pneumoniae. Overall, these data show Ply inhibits the initial macrophage inflammatory response to S. pneumoniae, probably mediated through SOCS1, and this was associated with improved immune evasion during early lung infection. [ABSTRACT FROM AUTHOR]

Published

2022

5. Innate and adaptive nasal mucosal immune responses following experimental human pneumococcal colonization.

Author

Jochems, Simon P., de Ruiter, Karin, Solórzano, Carla, Voskamp, Astrid, Mitsi, Elena, Nikolaou, Elissavet, Carniel, Beatriz F., Pojar, Sherin, German, Esther L., Reiné, Jesús, Soares-Schanoski, Alessandra, Hill, Helen, Robinson, Rachel, Hyder-Wright, Angela D., Weight, Caroline M., Durrenberger, Pascal F., Heyderman, Robert S., Gordon, Stephen B., Smits, Hermelijn H., and Urban, Britta C.

Subjects

*STREPTOCOCCUS pneumoniae, *IMMUNE response, *COLONIZATION, *RESPIRATORY mucosa, *B cells, *CELL populations, *COMPARATIVE studies, *IMMUNITY, *RESEARCH methodology, *MEDICAL cooperation, *NASAL mucosa, *RESEARCH, *STREPTOCOCCUS, *T cells, *EVALUATION research

Abstract

Streptococcus pneumoniae (Spn) is a common cause of respiratory infection, but also frequently colonizes the nasopharynx in the absence of disease. We used mass cytometry to study immune cells from nasal biopsy samples collected following experimental human pneumococcal challenge in order to identify immunological mechanisms of control of Spn colonization. Using 37 markers, we characterized 293 nasal immune cell clusters, of which 7 were associated with Spn colonization. B cell and CD8+CD161+ T cell clusters were significantly lower in colonized than in non-colonized subjects. By following a second cohort before and after pneumococcal challenge we observed that B cells were depleted from the nasal mucosa upon Spn colonization. This associated with an expansion of Spn polysaccharide-specific and total plasmablasts in blood. Moreover, increased responses of blood mucosal associated invariant T (MAIT) cells against in vitro stimulation with pneumococcus prior to challenge associated with protection against establishment of Spn colonization and with increased mucosal MAIT cell populations. These results implicate MAIT cells in the protection against pneumococcal colonization and demonstrate that colonization affects mucosal and circulating B cell populations. [ABSTRACT FROM AUTHOR]

Published

2019

6. Innate and adaptive nasal mucosal immune responses following experimental human pneumococcal colonization.

Author

Jochems, Simon P, de Ruiter, Karin, Solórzano, Carla, Voskamp, Astrid, Mitsi, Elena, Nikolaou, Elissavet, Carniel, Beatriz F, Pojar, Sherin, German, Esther L, Reiné, Jesús, Soares-Schanoski, Alessandra, Hill, Helen, Robinson, Rachel, Hyder-Wright, Angela D, Weight, Caroline M, Durrenberger, Pascal F, Heyderman, Robert S, Gordon, Stephen B, Smits, Hermelijn H, and Urban, Britta C

Published

2022