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1. Characterisation of bacterial profiles in chronic rhinosinusitis

Author

Hayes, Stephen M. A., Pender, Sylvia, and Salib, Rami

Subjects
616.2
Abstract

Chronic rhinosinusitis (CRS) with or without nasal polyps (NP) affects up to 15% of the UK population significantly affecting quality of life and impacting heavily on health care resources. Despite millions of pounds spent on research each year, the underlying cause of CRS remains unknown. Bacteria have been implicated in playing a role in mediating the ongoing inflammation in CRS. Bacteria possess the ability to quickly adapt to environmental changes, readily interchanging between planktonic, biofilm and intracellular profiles. Emerging evidence suggests that CRS is the result of a locally dysregulated innate immune system caused by changes in bacterial profiles in a bid for survival. The work presented in this thesis aimed to clarify this proposed theory through characterisation of bacterial profiles in CRS and analysis of the effect on the local innate immune system at a cellular level. A prospective study was performed using ex-vivo sinonasal mucosal and NP tissue from CRS patients, and sinonasal mucosa from non-CRS patients undergoing transsphenoidal pituitary surgery as a control. Tissue was analysed using the LIVE/DEAD® BacLight™ viability kit, fluorescent in situ hybridisation, scanning electron microscopy, transmission electron microscopy, confocal laser scanning microscopy and immunohistochemistry. An explant tissue model was developed to explore histological changes at the host-environment interface after addition of exogenous Staphylococcus aureus (S aureus) and Staphylococcus enterotoxin B (SEB). An in vitro cell culture model was developed to investigate cellular changes resulting from mast cell-S aureus interactions. Surface-related biofilms were identified on CRS sinonasal mucosa. S aureus was the commonest microbe identified. Sodium nitroprusside appeared to have little or no effect on dispersal of surface-related CRS biofilms. In NP, bacteria were sub-epithelial and within mast cells (intracellular). This is the first reported study to observe intracellular S aureus within mast cells in NP. The presence of SEB significantly increased the internalisation of S aureus into mast cells. S aureus entered mast cells through phagocytosis and via extracellular traps. Proliferating intracellular S aureus led to mast cell expansion and eventual rupture, seeding viable S aureus and proinflammatory mediators into the extracellular space. These findings demonstrate the ability of S aureus in CRS to manipulate the host's innate immune system in order to facilitate survival. Adaptation of bacteria into different profiles results in different pathophysiological effects. The intermittent dispersal of active planktonic bacteria from surface-related bacterial biofilms on nonpolypoidal mucosa mediates the ongoing chronic inflammation and symptom relapse in CRS. Intracellular S aureus within mast cells could act as a reservoir for bacteria constantly seeding into the extracellular environment leading to the build-up of proinflammatory cytokines and mediators, thus promoting tissue oedema and potentially nasal polyp growth. These findings suggest that NP formation may be an indirect consequence of a S aureus survival strategy to evade host defences.

Published
2018

4. Staphylococcus aureus internalisation enhances bacterial survival through modulation of host immune responses and mast cell activation

Author

Biggs, Timothy C., primary, Abadalkareem, Rana S., additional, Hayes, Stephen M., additional, Holding, Rebecca E., additional, Lau, Laurie C., additional, Harries, Philip G., additional, Allan, Raymond N., additional, Pender, Sylvia L. F., additional, Walls, Andrew F., additional, and Salib, Rami J., additional

Published
2020
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6. Staphylococcus aureus internalisation enhances bacterial survival through modulation of host immune responses and mast cell activation.

Author

Biggs, Timothy C., Abadalkareem, Rana S., Hayes, Stephen M., Holding, Rebecca E., Lau, Laurie C., Harries, Philip G., Allan, Raymond N., Pender, Sylvia L. F., Walls, Andrew F., and Salib, Rami J.

Subjects
MAST cells, STAPHYLOCOCCUS aureus, NASAL polyps, IMMUNOREGULATION, FIBRONECTINS, IMMUNE response, GLYCOGEN synthase kinase, TRYPTASE
Abstract

Chronic rhinosinusitis (CRS) is a chronic inflammatory condition of the upper airways affecting up to 15% of the population, significantly impacting upon patients' quality of life and resultant healthcare resources.1 Whilst the pathophysiological mechanisms underlying CRS are not fully understood, I Staphylococcus aureus i ( I S aureus i ) has been shown to play a prominent role.2-4 In addition to its presence on the sinonasal mucosal surface, we previously demonstrated I S aureus i harbouring within mast cells in nasal polyps.2 We revealed that following I S aureus i intracellular uptake and proliferation, bacteria were released into the extracellular space following mast cell rupture, which potentially contributed to the repopulation of depleted surface colonies.3 Recent evidence suggests that patients with nasal polyps, and especially those with recalcitrant disease, not only have intracellular reservoirs of I S aureus i but also elevated levels of IgE specific to I S aureus i and their toxins.5 Activation of mast cells via localized anti- I S aureus i IgE would normally enable them to contribute towards clearance of some of the subepithelial bacterial colonies through phagocytosis.6 However, it is postulated that modulation of the local host immune response by I S aureus i may blunt this response, resulting in enhanced bacterial survival and persistence. Using bone-derived murine mast cells and the HMC-1 line, Abel et al showed a mast cell response to eradicate I S aureus i infection through the release of pre-formed mediators and extracellular traps.8 However, I S aureus i was able to subvert these killing mechanisms through its internalization. [Extracted from the article]

Published
2021
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7. Abstracts from the 11th Symposium on Experimental Rhinology and Immunology of the Nose (SERIN 2017)

Author

Gracia, Ibon Eguiluz, primary, Rondón, Carmen, additional, Campo, Paloma, additional, Prieto, Ana, additional, Mayorga, Lina, additional, Galindo, Luisa, additional, Molina, Ana, additional, Blanca, Miguel, additional, Torres, Maria Jose, additional, Morikawa, Taiyo, additional, Fukuoka, Ayumi, additional, Matsushita, Kazufumi, additional, Fujieda, Shigeharu, additional, Yoshimoto, Tomohiro, additional, Iwasaki, Naruhito, additional, Smulders, Tamar, additional, Van Egmond, Danielle, additional, Van Drunen, Kees, additional, Van Der Schee, Marc, additional, Beule, Achim Georg, additional, Berings, Margot, additional, Jult, Anton, additional, Vermeulen, Hanne, additional, De Ruyck, Natalie, additional, Derycke, Lara, additional, Ucar, Hakan, additional, Ghekiere, Philip, additional, Temmerman, Robin, additional, Ellis, John, additional, Bachert, Claus, additional, Lambrecht, Bart, additional, Dullaers, Melissa, additional, Gevaert, Philippe, additional, Arasi, Stefania, additional, Perna, Serena, additional, Resch, Yvonne, additional, Lupinek, Christian, additional, Chen, Kuan-Wei, additional, Vrtala, Susanne, additional, Valenta, Rudolf, additional, Matricardi, Paolo Maria, additional, Gonçalves, Ivânia, additional, Jacinto, Tiago, additional, Amaral, Rita, additional, Pereira, Ana M., additional, Araújo, Luís M., additional, Couto, Mariana, additional, Fonseca, João A., additional, Stjarne, Par, additional, Kaulsay, Ranbir, additional, Pohl, Wolfgang, additional, Plaza, Maria Carmen, additional, Prieto, Ana Maria, additional, Mayorga, Cristobalina, additional, Herknerova, Magdalena, additional, Wang, Tengchin, additional, Wu, Chiejun, additional, Kilimajer, Jonathan, additional, Pujols, Laura, additional, Roca-Ferrer, Jordi, additional, Callejas, Borja, additional, Fuentes-Prado, Mireya, additional, Perez-Gonzalez, Maria, additional, Alobid, Isam, additional, Valero, Antonio, additional, Picado, Cesar, additional, Murray, Ruth, additional, Mullol, Joaquim, additional, Steelant, Brecht, additional, Martens, Katleen, additional, Boeckxstaens, Guy, additional, Seys, Sven F., additional, Hellings, Peter W., additional, Biggs, Timothy C., additional, Hayes, Stephen M., additional, Harries, Philip G., additional, Pender, Sylvia, additional, Salib, Rami J., additional, Kim, Jean, additional, Lee, Hyun Sil, additional, Kalogjera, Livije, additional, Vrkic, Nada, additional, Topic, Anita, additional, Tomljenovic, Dejan, additional, Greguric, Tomislav, additional, Radovanovic, Patricija Bankovic, additional, Jund, Rainer, additional, Haimerl, Pascal, additional, Chaker, Adam M., additional, Schober, Yvonne, additional, Schindela, Sonja, additional, Nockher, Andreas, additional, Schmidt-Weber, Carsten B., additional, Bieren, Julia Esser-Von, additional, Ickrath, Pascal, additional, Kleinsasser, Norbert, additional, Beyersdorf, Niklas, additional, Ding, Xin, additional, Hagen, Rudolf, additional, Hackenberg, Stephan, additional, Cangiano, Daniela, additional, Cinetto, Francesco, additional, Brescia, Giuseppe, additional, Marioni, Gino, additional, Zanotti, Claudia, additional, Schiavon, Franco, additional, Padoan, Roberto, additional, Caputo, Ilaria, additional, Neri, Raffaella, additional, Agostini, Carlo, additional, Kim, Ji Heui, additional, Jang, Yong Ju, additional, Lim, Ji Youn, additional, Kim, Sung Hee, additional, Savlevich, Elena, additional, Gaganov, Leonid, additional, Kochnova, Maria, additional, Egorov, Victor, additional, Fok, Jie Shen, additional, Hanif, Tanzeela, additional, Renkonen, Jutta, additional, Joenväärä, Sakari, additional, Kankainen, Matti, additional, Mäkelä, Mika, additional, Kauppi, Paula, additional, Pelkonen, Anna, additional, Mattila, Pirkko, additional, Renkonen, Risto, additional, Toppila-Salmi, Sanna, additional, Holtappels, Gabriele, additional, Lambrecht, Bart N., additional, Blanca-López, Natalia, additional, Gonzalez-Visiedo, Miguel, additional, Jurado, Raquel, additional, and Canto, Gabriela, additional

Published
2017
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9. Low Concentrations of Nitric Oxide Modulate Streptococcus pneumoniae Biofilm Metabolism and Antibiotic Tolerance

Author

Allan, Raymond N., primary, Morgan, Samantha, additional, Brito-Mutunayagam, Sanjita, additional, Skipp, Paul, additional, Feelisch, Martin, additional, Hayes, Stephen M., additional, Hellier, William, additional, Clarke, Stuart C., additional, Stoodley, Paul, additional, Burgess, Andrea, additional, Ismail-Koch, Hasnaa, additional, Salib, Rami J., additional, Webb, Jeremy S., additional, Faust, Saul N., additional, and Hall-Stoodley, Luanne, additional

Published
2016
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11. Low Concentrations of Nitric Oxide Modulate Streptococcus pneumoniaeBiofilm Metabolism and Antibiotic Tolerance

Author

Allan, Raymond N., Morgan, Samantha, Brito-Mutunayagam, Sanjita, Skipp, Paul, Feelisch, Martin, Hayes, Stephen M., Hellier, William, Clarke, Stuart C., Stoodley, Paul, Burgess, Andrea, Ismail-Koch, Hasnaa, Salib, Rami J., Webb, Jeremy S., Faust, Saul N., and Hall-Stoodley, Luanne

Abstract

ABSTRACTStreptococcus pneumoniaeis one of the key pathogens responsible for otitis media (OM), the most common infection in children and the largest cause of childhood antibiotic prescription. Novel therapeutic strategies that reduce the overall antibiotic consumption due to OM are required because, although widespread pneumococcal conjugate immunization has controlled invasive pneumococcal disease, overall OM incidence has not decreased. Biofilm formation represents an important phenotype contributing to the antibiotic tolerance and persistence of S. pneumoniaein chronic or recurrent OM. We investigated the treatment of pneumococcal biofilms with nitric oxide (NO), an endogenous signaling molecule and therapeutic agent that has been demonstrated to trigger biofilm dispersal in other bacterial species. We hypothesized that addition of low concentrations of NO to pneumococcal biofilms would improve antibiotic efficacy and that higher concentrations exert direct antibacterial effects. Unlike in many other bacterial species, low concentrations of NO did not result in S. pneumoniaebiofilm dispersal. Instead, treatment of both in vitrobiofilms and ex vivoadenoid tissue samples (a reservoir for S. pneumoniaebiofilms) with low concentrations of NO enhanced pneumococcal killing when combined with amoxicillin-clavulanic acid, an antibiotic commonly used to treat chronic OM. Quantitative proteomic analysis using iTRAQ (isobaric tag for relative and absolute quantitation) identified 13 proteins that were differentially expressed following low-concentration NO treatment, 85% of which function in metabolism or translation. Treatment with low-concentration NO, therefore, appears to modulate pneumococcal metabolism and may represent a novel therapeutic approach to reduce antibiotic tolerance in pneumococcal biofilms.

Published
2016
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14. The JAL Guide to New Books and Book Reviews: Online Access.

Author

Banfield, Elizabeth, Hayes, Stephen M., Leacy, Richard, Anderson, Charles, Lagasse, Carol, Peters, Paul Evan, and Borgman, Christine L.

Subjects
*ELECTRONIC information resources
Abstract

Provides information on books about online access. 'Effective Online Searching: A Basic Text,' by Christine L. Borgman; 'Numeric Databases,' edited by Chin-Chin Chen and P. Hernon; 'Data Base Directory, 1984-85'; 'An Introduction to Online Searching,' by Tze-Chung Li.

Published
1985

15. The JAL Guide to the Professional Literature: Reference Materials.

Author

Hayes, Stephen M., Rettig, James, Cheney, Deborah, Young, R. C., and Mill, David

Subjects
*NONFICTION
Abstract

Reviews various non-fiction books or reference materials. 'Encyclopedia of Government Advisory Organizations, 1986-87,' edited by Denise M. Allard; 'Scientific and Technical Information Sources,' 2nd edition, by Ching-Chih Chen; 'World Encyclopedia of Political Systems & Parties,' 2nd edition, edited by George E. Delury.

Published
1987

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