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604 results on '"Taylor, Cormac T."'

153. An Intact Canonical NF-κB Pathway Is Required for Inflammatory Gene Expression in Response to Hypoxia

Author

Fitzpatrick, Susan F., primary, Tambuwala, Murtaza M., additional, Bruning, Ulrike, additional, Schaible, Bettina, additional, Scholz, Carsten C., additional, Byrne, Annette, additional, O’Connor, Aisling, additional, Gallagher, William M., additional, Lenihan, Colin R., additional, Garvey, John F., additional, Howell, Katherine, additional, Fallon, Padraic G., additional, Cummins, Eoin P., additional, and Taylor, Cormac T., additional

Published
2011
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174. Lower Expression of Nrf2 MRNA in Older Donor Livers: A Possible Contributor to Increased Ischemia–Reperfusion Injury?

Author

Zaman, Muhammad B., primary, Leonard, Martin O., additional, Ryan, Elizabeth J., additional, Nolan, Niamh P., additional, Hoti, Emir, additional, Maguire, Donal, additional, Mulcahy, Hugh, additional, Traynor, Oscar, additional, Taylor, Cormac T., additional, Hegarty, John E., additional, Geoghegan, Justin G., additional, and O'Farrelly, Cliona, additional

Published
2007
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179. The impact of hypoxia on bacterial infection.

Author

Schaffer, Kirsten and Taylor, Cormac T.

Subjects
*HYPOXEMIA, *BACTERIAL diseases, *INFLAMMATION, *NATURAL immunity, *TRANSCRIPTION factors, *HYPOXIA-inducible factors
Abstract

Tissue hypoxia is a common microenvironmental feature during inflammation associated with bacterial infection. Hypoxia has recently been shown to play an important role in both innate and adaptive host immunity through the regulation of transcription factors, including hypoxia-inducible factor and nuclear factor-κB, in both infiltrating immunocytes and inflamed resident cells. Recent studies have suggested that, by regulating these important immune effector pathways in host tissues, hypoxia can significantly alter the process of bacterial infection and subsequent disease progression. Although hypoxia is often beneficial in terms of reducing the development of infection, its net effect depends on a number of factors, including the nature of the pathogen and the characteristics of the infection encountered. In this minireview, we will discuss the impact of local tissue hypoxia and the resulting activation of hypoxia-sensitive pathways on bacterial infection by a range of pathogens. Furthermore, we will review how this knowledge may be used to develop new approaches to anti-infective therapeutics. [ABSTRACT FROM AUTHOR]

Published
2015
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180. Reoxygenation‐specific activation of the antioxidant transcription factor Nrf2 mediates cytoprotective gene expression in ischemia‐reperfusion injury

Author

Leonard, Martin O., primary, Kieran, Niamh E., additional, Howell, Katherine, additional, Burne, Melissa J., additional, Varadarajan, Raghu, additional, Dhakshinamoorthy, Saravanakumar, additional, Porter, Alan G., additional, O'Farrelly, Cliona, additional, Rabb, Hamid, additional, Taylor, Cormac T., additional, and Leonard, Martin O., additional

Published
2006
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181. Prolyl hydroxylase-1 negatively regulates IκB kinase-β, giving insight into hypoxia-induced NFκB activity

Author

Cummins, Eoin P., primary, Berra, Edurne, additional, Comerford, Katrina M., additional, Ginouves, Amandine, additional, Fitzgerald, Kathleen T., additional, Seeballuck, Fergal, additional, Godson, Catherine, additional, Nielsen, Jens E., additional, Moynagh, Paul, additional, Pouyssegur, Jacques, additional, and Taylor, Cormac T., additional

Published
2006
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184. Effects of Heat Shock and Hypoxia on Neonatal Neutrophil Lipopolysaccharide Responses: Altered Apoptosis, Toll-Like Receptor-4 and CD11b Expression Compared with Adults

Author

Molloy, Eleanor J., primary, O’Neill, Amanda J., additional, Doyle, Belinda T., additional, Grantham, Julie J., additional, Taylor, Cormac T., additional, Sheridan-Pereira, Margaret, additional, Fitzpatrick, John M., additional, Webb, David W., additional, and Watson, R. William G., additional

Published
2006
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191. RNA Interference and the Regulation of Renal Gene Expression in Hypoxia.

Author

Scholz, Carsten C., Lenihan, Colin R., Taylor, Cormac T., and Bruning, Ulrike

Abstract

Hypoxia is a common occurrence both in health and disease, and it contributes to both physiologic and pathophysiologic processes through the regulation of gene expression. At the cellular level, highly conserved signaling pathways that activate transcription factors, including (but not limited to) the hypoxia-inducible factor (HIF) and nuclear factor ΚB (NFΚB) demonstrate hypoxic sensitivity and modulate gene expression in response to changes in microenvironmental oxygen concentrations. Recent evidence has revealed that posttranscriptional mechanisms based on RNA interference are also critically important in the regulation of global gene expression. In this chapter, we will discuss the potential importance of RNA interference in the regulation of gene expression in response to hypoxia with a particular emphasis on renal disease. [ABSTRACT FROM AUTHOR]

Published
2011
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197. Anoxia and glucose supplementation preserve neutrophil viability and function

Author

Monceaux, Valérie, Chiche-Lapierre, Clarisse, Chaput, Catherine, Witko-Sarsat, Véronique, Prevost, Marie-Christine, Taylor, Cormac T., Ungeheuer, Marie-Noelle, Sansonetti, Philippe J., and Marteyn, Benoit S.

Abstract

Functional studies of human neutrophils and their transfusion for clinical purposes have been hampered by their short life span after isolation. Here, we demonstrate that neutrophil viability is maintained for 20 hours in culture media at 37°C under anoxic conditions with 3 mM glucose and 32 μg/mL dimethyloxalylglycine supplementation, as evidenced by stabilization of Mcl-1, proliferating cell nuclear antigen (PCNA), and pro-caspase-3. Notably, neutrophil morphology (nucleus shape and cell-surface markers) and functions (phagocytosis, degranulation, calcium release, chemotaxis, and reactive oxygen species production) were comparable to blood circulating neutrophils. The observed extension in neutrophil viability was reversed upon exposure to oxygen. Extending neutrophil life span allowed efficient transfection of plasmids (40% transfection efficiency) and short interfering RNA (interleukin-8, PCNA, and Bax), as a validation of effective and functional genetic manipulation of neutrophils both in vitro and in vivo. In vivo, transfusion of conditioned neutrophils in a neutropenic guinea pig model increased bacterial clearance of Shigella flexneri upon colonic infection, strongly suggesting that these conditioned neutrophils might be suitable for transfusion purposes. In summary, such conditioning of neutrophils in vitro should facilitate their study and offer new opportunities for genetic manipulation and therapeutic use.

Published
2016
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