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1. Presence of procoagulant peripheral blood mononuclear cells in severe COVID-19 patients relate to ventilation perfusion mismatch and precede pulmonary embolism

Author

Raadsen, M., Langerak, T., Du Toit, J., Kruip, M.J.H.A., Aynekulu Mersha, D., De Maat, M.P.M., Vermin, B., Van den Akker, J.P.C., Schmitz, K.S., Bakhtiari, K., Meijers, J.C.M., van Gorp, E.C.M., Short, K.R., Haagmans, B., de Vries, R.D., Gommers, D.A.M.P.J., Endeman, H., and Goeijenbier, M.

Published
2024
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2. Animal and translational models of SARS-CoV-2 infection and COVID-19.

Author

McCaughan G.W., Rudloff I., Nold M.F., Hansbro N.G., Kim R.Y., Donovan C., Liu G., Faiz A., Short K.R., Lyons J.G., Tate M.D., Gorrell M.D., Cole A., Moreno C., Couteur D., Hesselson D., Triccas J., Neely G.G., Gamble J.R., Simpson S.J., Saunders B.M., Oliver B.G., Britton W.J., Wark P.A., Nold-Petry C.A., Hansbro P.M., Johansen M.D., Irving A., Montagutelli X., McCaughan G.W., Rudloff I., Nold M.F., Hansbro N.G., Kim R.Y., Donovan C., Liu G., Faiz A., Short K.R., Lyons J.G., Tate M.D., Gorrell M.D., Cole A., Moreno C., Couteur D., Hesselson D., Triccas J., Neely G.G., Gamble J.R., Simpson S.J., Saunders B.M., Oliver B.G., Britton W.J., Wark P.A., Nold-Petry C.A., Hansbro P.M., Johansen M.D., Irving A., and Montagutelli X.

Abstract

COVID-19 is causing a major once-in-a-century global pandemic. The scientific and clinical community is in a race to define and develop effective preventions and treatments. The major features of disease are described but clinical trials have been hampered by competing interests, small scale, lack of defined patient cohorts and defined readouts. What is needed now is head-to-head comparison of existing drugs, testing of safety including in the background of predisposing chronic diseases, and the development of new and targeted preventions and treatments. This is most efficiently achieved using representative animal models of primary infection including in the background of chronic disease with validation of findings in primary human cells and tissues. We explore and discuss the diverse animal, cell and tissue models that are being used and developed and collectively recapitulate many critical aspects of disease manifestation in humans to develop and test new preventions and treatments.Copyright © 2020, Society for Mucosal Immunology.

Published
2020

3. Effects of caloric restriction on mitochondrial function and gene transcripts in rat muscle

Author

Sreekumar, R., Unnikrishnan, J., Fu, A., Nygren, J., Short, K.R., Schimke, J., Barazzoni, R., and Nair, K. Sreekumaran

Subjects
Food -- Caloric content, Genetic transcription -- Regulation, Mitochondria -- Physiological aspects, Muscles -- Physiological aspects, Biological sciences
Abstract

Effects of caloric restriction on mitochondrial function and gene transcripts in rat muscle. Am J Physiol Endocrinol Metab 283: E38-E43, 2002. First published March 12, 2002; 10.1152/ajpendo.00387.2001.--Rodent skeletal muscle mitochondrial DNA has been shown to be a potential site of oxidative damage during aging. Caloric restriction (CR) is reported to reduce oxidative stress and prolong life expectancy in rodents. Gene expression profiling and measurement of mitochondrial ATP production capacity were performed in skeletal muscle of male rats after feeding them either a control diet or calorie-restricted diet (60% of control diet) for 36 wk to determine the potential mechanism of the beneficial effects of CR. CR enhanced the transcripts of genes involved in reactive oxygen free radical scavenging function, tissue development, and energy metabolism while decreasing expression of those genes involved in signal transduction, stress response, and structural and contractile proteins. Real-time PCR measurments confirmed the changes in transcript levels of cytochrome-c oxidase III, superoxide dismutase (SOD)1, and SOD2 that were noted by the microarray approach. Mitochondrial ATP production and citrate synthase were unaltered by the dietary changes. We conclude that CR alters transcript levels of several genes in skeletal muscle and that mitochondrial function in skeletal muscle remains unaltered by the dietary intervention. Alterations in transcripts of many genes involved in reactive oxygen scavenging function may contribute to the increase in longevity reported with CR. rat muscle; microarrays and mitochondrial adenosine 5'triphosphate production

Published
2002

4. Impact of high-fat diet and antioxidant supplement on mitochondrial functions and gene transcripts in rat muscle

Author

Sreekumar, R., Unnikrishnan, J., Fu, A., Nygren, J., Short, K.R., Schimke, J., Barazzoni, R., and Nair, Sreekumaran K.

Subjects
Antioxidants -- Physiological aspects, Oxidation, Physiological -- Causes of, Striated muscle -- Genetic aspects, Gene expression -- Analysis, DNA damage -- Physiological aspects, Biological sciences
Abstract

High-fat diets are reported to increase oxidative stress in a variety of tissues, whereas antioxidant supplementation prevents many diseases attributed to high-fat diet. Rodent skeletal muscle mitochondrial DNA has been shown to be a potential site of oxidative damage. We hypothesized that the effects of a high-fat diet on skeletal muscle DNA functions would be attenuated or partially reversed by antioxidant supplementation. Gene expression profiling and measurement of mitochondrial ATP production capacity were performed in skeletal muscle from male rats after feeding one of three diets (control, high-fat diet with or without antioxidants) for 36 wk. The high-fat diet altered transcript levels of 18 genes of 800 surveyed compared with the control-fed rats. Alterations included reduced expression of genes involved in free-radical scavenging and tissue development and increased expression of stress response and signal transduction genes. The magnitude of these alterations due to high-fat diet was reduced by antioxidant supplementation. Real-time PCR measurements confirmed the changes in transcript levels of cytochrome c oxidase subunit III and superoxide dismutase-1 and -2 noted by microarray approach. Mitochondrial ATP production was unaltered by dietary changes or antioxidant supplemention. It is concluded that the high-fat diet increases the transcription of genes involved in stress response but reduces those of free-radical scavenger enzymes, resulting in reduced DNA repair/metabolism (increased DNA damage). Antioxidants partially prevent these changes. Mitochondrial functions in skeletal muscle remain unaltered by the dietary intervention due to many adaptive changes in gene transcription. antioxidants; gene expression; mitochondrial adenosine triphosphate production

Published
2002

5. Animal and translational models of SARS-CoV-2 infection and COVID-19

Author

Johansen, M.D., primary, Irving, A., additional, Montagutelli, X., additional, Tate, M.D., additional, Rudloff, I., additional, Nold, M.F., additional, Hansbro, N.G., additional, Kim, R.Y., additional, Donovan, C., additional, Liu, G., additional, Faiz, A., additional, Short, K.R., additional, Lyons, J.G., additional, McCaughan, G.W., additional, Gorrell, M.D., additional, Cole, A., additional, Moreno, C., additional, Couteur, D., additional, Hesselson, D., additional, Triccas, J., additional, Neely, G.G., additional, Gamble, J.R., additional, Simpson, S.J., additional, Saunders, B.M., additional, Oliver, B.G., additional, Britton, W.J., additional, Wark, P.A., additional, Nold-Petry, C.A., additional, and Hansbro, P.M., additional

Published
2020
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7. Creating Disease Resistant Chickens: A Viable Solution to Avian Influenza?

Author

Looi, F.Y. (Fong Yang), Baker, M.L. (Michelle L.), Townson, T. (Thomas), Richard, M. (Mathilde), Novak, B. (Ben), Doran, T.J. (Tim J.), Short, K.R. (Kirsty), Looi, F.Y. (Fong Yang), Baker, M.L. (Michelle L.), Townson, T. (Thomas), Richard, M. (Mathilde), Novak, B. (Ben), Doran, T.J. (Tim J.), and Short, K.R. (Kirsty)

Abstract

Influenza A virus (IAV) represents an ongoing threat to human and animal health worldwide. The generation of IAV-resistant chickens through genetic modification and/or selective breeding may help prevent viral spread. The feasibility of creating genetically modified birds has

Published
2018
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8. The culture of primary duck endothelial cells for the study of avian influenza

Author

Davis, R.L. (Raissa L.), Choi, G. (Geunho), Kuiken, T. (Thijs), Quéré, P. (Pascale), Trapp, S. (Sascha), Short, K.R. (Kirsty), Richard, M. (Mathilde), Davis, R.L. (Raissa L.), Choi, G. (Geunho), Kuiken, T. (Thijs), Quéré, P. (Pascale), Trapp, S. (Sascha), Short, K.R. (Kirsty), and Richard, M. (Mathilde)

Abstract

Background: Endothelial cells play a major role in highly pathogenic avian influenza (HPAI) virus pathogenesis in gallinaceous poultry species (e.g. chicken, turkey and quail). Upon infection of gallinaceous poultry with HPAI viruses, endothelial cells throughout the body become rapidly infected, leading to systemic dissemination of the virus, disseminated intravascular coagulation, oedema and haemorrhaging. In contrast, the pathogenesis of HPAI viruses in most wild bird species (e.g. duck, goose and gull species) is not associated with endothelial tropism. Indeed, viral antigen is not found in the endothelial cells of most wild bird species following infection with HPAI viruses. This differential endothelial cell tropism in avian species is poorly understood, mainly due to the absence of appropriate cell culture systems. Results: Here, we describe the isolation and purification of primary duck endothelial cells from the aorta or bone marrow of Pekin duck embryos. Cells were differentiated in the presence of vascular endothelial growth factor and, if needed, enriched via fluorescent-activated cell sorting based on the uptake of acetylated low-density lipoprotein. The expression of von Willebrand factor, a key marker of endothelial cells, was confirmed by polymerase chain reaction. Monocultures of duck endothelial cells, either derived from the aorta or the bone marrow, were susceptible to infection with an H5N1 HPAI virus but to a much lesser extent than chicken endothelial cells. Conclusions: The methods described herein to isolate and purify duck endothelial cells from the aorta or bone marrow could also be applied to obtain microvascular endothelial cells from other tissues and organs, such as the lung or the intestine, and represent a valuable tool to study the pathogenesis of avian viruses.

Published
2018
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9. One health, multiple challenges: The inter-species transmission of influenza A virus

Author

Short, K.R. (Kirsty), Richard, M. (Mathilde), Verhagen, J.H. (Josanne), Riel, D.A.J. (Debby) van, Schrauwen, E.J.A. (Eefje), Brand, J.M.A. (Judith) van den, Mänz, B. (Benjamin), Bodewes, R. (Rogier), Herfst, S. (Sander), Short, K.R. (Kirsty), Richard, M. (Mathilde), Verhagen, J.H. (Josanne), Riel, D.A.J. (Debby) van, Schrauwen, E.J.A. (Eefje), Brand, J.M.A. (Judith) van den, Mänz, B. (Benjamin), Bodewes, R. (Rogier), and Herfst, S. (Sander)

Abstract

Influenza A viruses are amongst the most challenging viruses that threaten both human and animal health. Influenza A viruses are unique in many ways. Firstly, they are unique in the diversity of host species that they infect. This includes waterfowl (the original reservoir), terrestrial and aquatic poultry, swine, humans, horses, dog, cats, whales, seals and several other mammalian species. Secondly, they are unique in their capacity to evolve and adapt, following crossing the species barrier, in order to replicate and spread to other individuals within the new species. Finally, they are unique in the frequency of inter-species transmission events that occur. Indeed, the consequences of novel influenza virus strain in an immunologically naïve population can be devastating. The problems that influenza A viruses present for human and animal health are numerous. For example, influenza A viruses in humans represent a major economic and disease burden, whilst the poultry industry has suffered colossal damage due to repeated outbreaks of highly pathogenic avian influenza viruses. This review aims to provide a comprehensive overview of influenza A viruses by shedding light on interspecies virus transmission and summarising the current knowledge regarding how influenza viruses can adapt to a new host.

Published
2015
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10. Optimisations and challenges involved in the creation of various bioluminescent and fluorescent influenza a virus strains for in vitro and in vivo applications

Author

Spronken, M.I. (Monique), Short, K.R. (Kirsty), Herfst, S. (Sander), Bestebroer, T.M. (Theo), Vaes, V.P. (Vincent P.), Van Der Hoeven, B. (Barbara), Koster, A.J. (Abraham J.), Kremers, G.J. (Gert-Jan), Scott, D.P. (Dana P.), Gultyaev, A.P. (Alexander), Sorell, E.M. (Erin M.), Graaf, M.T. (Marieke) de, Bárcena, M. (Montserrat), Rimmelzwaan, G.F. (Guus), Fouchier, R.A.M. (Ron), Spronken, M.I. (Monique), Short, K.R. (Kirsty), Herfst, S. (Sander), Bestebroer, T.M. (Theo), Vaes, V.P. (Vincent P.), Van Der Hoeven, B. (Barbara), Koster, A.J. (Abraham J.), Kremers, G.J. (Gert-Jan), Scott, D.P. (Dana P.), Gultyaev, A.P. (Alexander), Sorell, E.M. (Erin M.), Graaf, M.T. (Marieke) de, Bárcena, M. (Montserrat), Rimmelzwaan, G.F. (Guus), and Fouchier, R.A.M. (Ron)

Abstract

Bioluminescent and fluorescent influenza A viruses offer new opportunities to study influenza virus replication, tropism and pathogenesis. To date, several influenza A reporter viruses have been described. These strategies typically focused on a single reporter gene (either bioluminescent or fluorescent) in a single virus backbone. However, whilst bioluminescence is suited to in vivo imaging, fluorescent viruses are more appropriate for microscopy. Therefore, the idea l reporter virus varies depending on the experiment in question, and it is important that any reporter virus strategy can be adapted accordingly. Herein, a strategy was developed to create five different reporter viruses in a single virus backbone. Specifically, enhanced green fluorescent protein (eGFP), far-red fluorescent protein (fRFP), near-infrared fluorescent protein (iRFP), Gaussia luciferase (gLUC) and firefly luciferase (fLUC) were inserted into the PA gene segment of A/PR/8/34 (H1N1). This study provides a comprehensive characterisation of the effects of different reporter genes on influenza virus replication and reporter activity. In vivo reporter gene expression, in lung tissues, was only detected for eGFP, fRFP and gLUC expressing viruses. In vitro, the eGFP-expressing virus displayed the best reporter stability and could be used for correlative light electron microscopy (CLEM). This strategy was then used to create eGFP-expressing viruses consisting entirely of pandemic H1N1, highly pathogenic avian influenza (HPAI) H5N1 and H7N9. The HPAI H5N1 eGFP-expressing virus infected mice and reporter gene expression was detected, in lung tissues, in vivo. Thus, this study provides new tools and insights for the creation of bioluminescent and fluorescent influenza A reporter viruses. Copyright

Published
2015
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11. Influenza A virus induced bacterial otitis media is independent of virus tropism for alpha2,6-linked sialic acid

Author

Short, K.R., Habets, M.N., Payne, J., Reading, P.C., Diavatopoulos, D.A., and Wijburg, O.L.

Subjects
Genomic disorders and inherited multi-system disorders Auto-immunity, transplantation and immunotherapy [IGMD 3], Pathogenesis and modulation of inflammation Infection and autoimmunity [N4i 1]
Abstract

Contains fulltext : 188710.pdf (Publisher’s version ) (Open Access) BACKGROUND: Otitis media (OM) affects >/=80% of children before the age of three. OM can arise following co-infection with influenza A virus (IAV) and the bacterium Streptococcus pneumoniae. We have previously shown that H3 IAV strains (such as Udorn/72) induced a higher rate of bacterial OM than H1 strains (such as PR8/34). This was associated with more efficient replication of H3 strains in the middle ear. FINDINGS: Here, we assess if the increased replication of IAV strains such as Udorn/72 in the middle ear is dependent upon the binding of the viral HA to alpha2,6-linked sialic acid. Using murine and in vitro models, the present study shows that recognition of alpha2,6-linked sialic acid was not required to facilitate bacterial OM. CONCLUSIONS: Taken together, these data suggest that other features of the HA mediate bacterial OM.

Published
2013

12. Antibodies mediate formation of neutrophil extracellular traps in the middle ear and facilitate secondary pneumococcal otitis media

Author

Short, K.R., Kockritz-Blickwede, M. von, Langereis, J.D., Chew, K.Y., Job, E.R., Armitage, C.W., Hatcher, B., Fujihashi, K., Reading, P.C., Hermans, P.W.M., Wijburg, O.L., Diavatopoulos, D.A., Short, K.R., Kockritz-Blickwede, M. von, Langereis, J.D., Chew, K.Y., Job, E.R., Armitage, C.W., Hatcher, B., Fujihashi, K., Reading, P.C., Hermans, P.W.M., Wijburg, O.L., and Diavatopoulos, D.A.

Abstract

Contains fulltext : 127657.pdf (publisher's version ) (Open Access), Otitis media (OM) (a middle ear infection) is a common childhood illness that can leave some children with permanent hearing loss. OM can arise following infection with a variety of different pathogens, including a coinfection with influenza A virus (IAV) and Streptococcus pneumoniae (the pneumococcus). We and others have demonstrated that coinfection with IAV facilitates the replication of pneumococci in the middle ear. Specifically, we used a mouse model of OM to show that IAV facilitates the outgrowth of S. pneumoniae in the middle ear by inducing middle ear inflammation. Here, we seek to understand how the host inflammatory response facilitates bacterial outgrowth in the middle ear. Using B cell-deficient infant mice, we show that antibodies play a crucial role in facilitating pneumococcal replication. We subsequently show that this is due to antibody-dependent neutrophil extracellular trap (NET) formation in the middle ear, which, instead of clearing the infection, allows the bacteria to replicate. We further demonstrate the importance of these NETs as a potential therapeutic target through the transtympanic administration of a DNase, which effectively reduces the bacterial load in the middle ear. Taken together, these data provide novel insight into how pneumococci are able to replicate in the middle ear cavity and induce disease.

Published
2014

13. Bacterial lipopolysaccharide inhibits influenza virus infection of human macrophages and the consequent induction of CD8+ T cell immunity

Author

Short, K.R., Vissers, M., Kleijn, S. de, Zomer, A.L., Kedzierska, K., Grant, E., Reading, P.C., Hermans, P.W.M., Ferwerda, G., Diavatopoulos, D.A., Short, K.R., Vissers, M., Kleijn, S. de, Zomer, A.L., Kedzierska, K., Grant, E., Reading, P.C., Hermans, P.W.M., Ferwerda, G., and Diavatopoulos, D.A.

Abstract

Contains fulltext : 127685.pdf (publisher's version ) (Open Access), It is well established that infection with influenza A virus (IAV) facilitates secondary bacterial disease. However, there is a growing body of evidence that the microbial context in which IAV infection occurs can affect both innate and adaptive responses to the virus. To date, these studies have been restricted to murine models of disease and the relevance of these findings in primary human cells remains to be elucidated. Here, we show that pre-stimulation of primary human monocyte-derived macrophages (MDMs) with the bacterial ligand lipopolysaccharide (LPS) reduces the ability of IAV to infect these cells. The inhibition of IAV infection was associated with a reduced transcription of viral RNA and the ability of LPS to induce an anti-viral/type I interferon response in human MDMs. We demonstrated that this reduced rate of viral infection is associated with a reduced ability to present a model antigen to autologous CD8+ T cells. Taken together, these data provide the first evidence that exposure to bacterial ligands like LPS can play an important role in modulating the immune response of primary human immune cells towards IAV infection, which may then have important consequences for the development of the host's adaptive immune response.

Published
2014

14. Influenza virus and endothelial cells: A species specific relationship

Author

Short, K.R. (Kirsty), Veldhuis Kroeze, E.J.B. (Edwin), Reperant, L.A. (Leslie), Richard, M. (Mathilde), Kuiken, T. (Thijs), Short, K.R. (Kirsty), Veldhuis Kroeze, E.J.B. (Edwin), Reperant, L.A. (Leslie), Richard, M. (Mathilde), and Kuiken, T. (Thijs)

Abstract

Influenza A virus (IAV) infection is an important cause of respiratory disease in humans. The original reservoirs of IAV are wild waterfowl and shorebirds, where virus infection causes limited, if any, disease. Both in humans and in wild waterbirds, epithelial cells are the main target of infection. However, influenza virus can spread from wild bird species to terrestrial poultry. Here, the virus can evolve into highly pathogenic av

Published
2014
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15. Novel avian-origin influenza A (H7N9) virus attachment to the respiratory tract of five animal models

Author

Siegers, J.Y. (Jurre), Short, K.R. (Kirsty), Leijten, L.M.E. (Lonneke), Graaf, M.T. (Marieke) de, Spronken, M.I. (Monique), Schrauwen, E.J.A. (Eefje), Marshall, N. (Nicolle), Lowen, A.C. (Anice), Gabriel, G. (Gülsah), Osterhaus, A.D.M.E. (Albert), Kuiken, T. (Thijs), Riel, D.A.J. (Debby) van, Siegers, J.Y. (Jurre), Short, K.R. (Kirsty), Leijten, L.M.E. (Lonneke), Graaf, M.T. (Marieke) de, Spronken, M.I. (Monique), Schrauwen, E.J.A. (Eefje), Marshall, N. (Nicolle), Lowen, A.C. (Anice), Gabriel, G. (Gülsah), Osterhaus, A.D.M.E. (Albert), Kuiken, T. (Thijs), and Riel, D.A.J. (Debby) van

Abstract

We determined the pattern of attachment of the avian-origin H7N9 influenza viruses A/Anhui/1/2013 and A/Shanghai/1/2013 to the respiratory tract in ferrets, macaques, mice, pigs, and guinea pigs and compared it to that in humans. The H7N9 attachment pattern in macaques, mice, and to a lesser extent pigs and guinea pigs resembled that in humans more closely than the attachment pattern in ferrets. This information contributes to our knowledge of the different animal models for influenza.

Published
2014
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16. Antibodies mediate formation of neutrophil extracellular traps in the middle ear and facilitate secondary pneumococcal otitis media

Author

Short, K.R. (Kirsty), Köckritz-Blickwede, M. (Maren) von, Langereis, J.D. (Jeroen), Chew, K.Y. (Keng Yih), Job, E.R. (Emma), Armitage, S. (Shane), Hatcher, P. (Pascale), Fujihashi, K. (Kohtaro), Reading, C.L. (Chris ), Hermans, P.W.M. (Peter), Wijburg, O.L. (Odilia), Diavatopoulos, D.A. (Dimitri), Short, K.R. (Kirsty), Köckritz-Blickwede, M. (Maren) von, Langereis, J.D. (Jeroen), Chew, K.Y. (Keng Yih), Job, E.R. (Emma), Armitage, S. (Shane), Hatcher, P. (Pascale), Fujihashi, K. (Kohtaro), Reading, C.L. (Chris ), Hermans, P.W.M. (Peter), Wijburg, O.L. (Odilia), and Diavatopoulos, D.A. (Dimitri)

Abstract

Otitis media (OM) (a middle ear infection) is a common childhood illness that can leave some children with permanent hearing loss.OMcan arise following infection with a variety of different pathogens, including a coinfection with influenza A virus (IAV) and Streptococcus pneumoniae (the pneumococcus). We and others have demonstrated that coinfection with IAV facilitates the replication of pneumococci in the middle ear. Specifically, we used a mouse model of OM to show that IAV facilitates the outgrowth of S. pneumoniae in the middle ear by inducing middle ear inflammation. Here, we seek to understand how the host inflammatory response facilitates bacterial outgrowth in the middle ear. Using B cell-deficient infant mice, we show that antibodies play a crucial role in facilitating pneumococcal replication. We subsequently show that this is due to antibody-dependent neutrophil extracellular trap (NET) formation in the middle ear, which, instead of clearing the infection, allows the bacteria to replicate. We further demonstrate the importance of these NETs as a potential therapeutic target through the transtympanic administration of a DNase, which effectively reduces the bacterial load in the middle ear. Taken together, these data provide novel insight into how pneumococci are able to replicate in the middle ear cavity and induce disease.

Published
2014
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17. A Novel Method Linking Antigen Presentation by Human Monocyte-Derived Macrophages to CD8(+) T Cell Polyfunctionality.

Author

Short, K.R., Grant, E.J., Vissers, M., Reading, P.C., Diavatopoulos, D.A., Kedzierska, K., Short, K.R., Grant, E.J., Vissers, M., Reading, P.C., Diavatopoulos, D.A., and Kedzierska, K.

Abstract

Contains fulltext : 128627.pdf (publisher's version ) (Open Access), To understand the interactions between innate and adaptive immunity, and specifically how virally infected macrophages impact T cell function, novel assays examining the ability of macrophages to present antigen to CD8(+) T cells are needed. In the present study, we have developed a robust in vitro assay to measure how antigen presentation by human monocyte-derived macrophages (MDMs) affects the functional capacity of autologous CD8(+) T cells. The assay is based on the polyfunctional characteristics of antigen-specific CD8(+) T cells, and is thus called a Mac-CD8 Polyfunctionality Assay. Following purification of monocytes and their maturation to MDMs, MDMs were pulsed with an antigenic peptide to be presented to CD8(+) T cells. Peptide-pulsed MDMs were then incubated with antigen-specific CD8(+) T cells in order to assess the efficacy of antigen presentation to T cells. CD8(+) T cell polyfunctionality was assessed by staining with mAbs to IFN-gamma, TNF-alpha, and CD107a in a multi-color intracellular cytokine staining assay. To highlight the utility of the Mac-CD8 Polyfunctionality Assay, we assessed the effects of influenza infection on the ability of human macrophages to present antigen to CD8(+) T cells. We found that influenza infection of human MDMs can alter the effector efficacy of MDMs to activate more CD8(+) T cells with cytotoxic capacity. This has important implications for understanding how the virus-infected macrophages affect adaptive immunity at the site of infection.

Published
2013

18. Influenza-induced inflammation drives pneumococcal otitis media

Author

Short, K.R., Reading, P.C., Brown, L.E., Pedersen, J., Gilbertson, B., Job, E.R., Edenborough, K.M., Habets, M.N., Zomer, A.L., Hermans, P.W.M., Diavatopoulos, D.A., Wijburg, O.L., Short, K.R., Reading, P.C., Brown, L.E., Pedersen, J., Gilbertson, B., Job, E.R., Edenborough, K.M., Habets, M.N., Zomer, A.L., Hermans, P.W.M., Diavatopoulos, D.A., and Wijburg, O.L.

Abstract

Item does not contain fulltext, Influenza A virus (IAV) predisposes individuals to secondary infections with the bacterium Streptococcus pneumoniae (the pneumococcus). Infections may manifest as pneumonia, sepsis, meningitis, or otitis media (OM). It remains controversial as to whether secondary pneumococcal disease is due to the induction of an aberrant immune response or IAV-induced immunosuppression. Moreover, as the majority of studies have been performed in the context of pneumococcal pneumonia, it remains unclear how far these findings can be extrapolated to other pneumococcal disease phenotypes such as OM. Here, we used an infant mouse model, human middle ear epithelial cells, and a series of reverse-engineered influenza viruses to investigate how IAV promotes bacterial OM. Our data suggest that the influenza virus HA facilitates disease by inducing a proinflammatory response in the middle ear cavity in a replication-dependent manner. Importantly, our findings suggest that it is the inflammatory response to IAV infection that mediates pneumococcal replication. This study thus provides the first evidence that inflammation drives pneumococcal replication in the middle ear cavity, which may have important implications for the treatment of pneumococcal OM.

Published
2013

19. Novel avian-origin influenza A (H7N9) virus attaches to epithelium in both upper and lower respiratory tract of humans

Author

Riel, D.A.J. (Debby) van, Leijten, L.M.E. (Lonneke), Graaf, M.T. (Marieke) de, Siegers, J.Y. (Jurre), Short, K.R. (Kirsty), Spronken, M.I. (Monique), Schrauwen, E.J.A. (Eefje), Fouchier, R.A.M. (Ron), Osterhaus, A.D.M.E. (Albert), Kuiken, T. (Thijs), Riel, D.A.J. (Debby) van, Leijten, L.M.E. (Lonneke), Graaf, M.T. (Marieke) de, Siegers, J.Y. (Jurre), Short, K.R. (Kirsty), Spronken, M.I. (Monique), Schrauwen, E.J.A. (Eefje), Fouchier, R.A.M. (Ron), Osterhaus, A.D.M.E. (Albert), and Kuiken, T. (Thijs)

Abstract

Influenza A viruses from animal reservoirs have the capacity to adapt to humans and cause influenza pandemics. The occurrence of an influenza pandemic requires efficient virus transmission among humans, which is associated with virus attachment to the upper respiratory tract. Pandemic severity depends on virus ability to cause pneumonia, which is associated with virus attachment to the lower respiratory tract. Recently, a novel avian-origin H7N9 influenza A virus with unknown pandemic potential emerged in humans. We determined the pattern of attachment of two genetically engineered viruses containing the hemagglutinin of either influenza virus A/Shanghai/1/13 or A/Anhui/1/13 to formalin-fixed human respiratory tract tissues using histochemical analysis. Our results show that the emerging H7N9 virus attached moderately or abundantly to both upper and lower respiratory tract, a pattern not seen before for avian influenza A viruses. With the caveat that virus attachment is only the first step in the virus replication cycle, these results suggest that the emerging H7N9 virus has the potential both to transmit efficiently among humans and to cause severe pneumonia.

Published
2013
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20. Interactions between Streptococcus pneumoniae and influenza virus: a mutually beneficial relationship?

Author

Short, K.R., Habets, M.N., Hermans, P.W.M., Diavatopoulos, D.A., Short, K.R., Habets, M.N., Hermans, P.W.M., and Diavatopoulos, D.A.

Abstract

1 mei 2012, Item does not contain fulltext, Historically, most research on infectious diseases has focused on infections with single pathogens. However, infections with pathogens often occur in the context of pre-existing viral and bacterial infections. Clinically, this is of particular relevance for coinfections with Streptococcus pneumoniae and influenza virus, which together are an important cause of global morbidity and mortality. In recent years new evidence has emerged regarding the underlying mechanisms of influenza virus-induced susceptibility to secondary pneumococcal infections, in particular regarding the sustained suppression of innate recognition of S. pneumoniae. Conversely, it is also increasingly being recognized that there is not a unidirectional effect of the virus on S. pneumoniae, but that asymptomatic pneumococcal carriage may also affect subsequent influenza virus infection and the clinical outcome. Here, we will review both aspects of pneumococcal influenza virus infection, with a particular focus on the age-related differences in pneumococcal colonization rates and invasive pneumococcal disease.

Published
2012

21. Increased Nasopharyngeal Bacterial Titers and Local Inflammation Facilitate Transmission of Streptococcus pneumoniae

Author

Short, K.R., Reading, P.C., Wang, N., Diavatopoulos, D.A., Wijburg, O.L., Short, K.R., Reading, P.C., Wang, N., Diavatopoulos, D.A., and Wijburg, O.L.

Abstract

Contains fulltext : 108315.pdf (publisher's version ) (Open Access), The transmission of the bacterium Streptococcus pneumoniae (the pneumococcus) marks the first step toward disease development. To date, our ability to prevent pneumococcal transmission has been limited by our lack of understanding regarding the factors which influence the spread of this pathogen. We have previously developed an infant mouse model of pneumococcal transmission which was strictly dependent on influenza A virus (IAV) coinfection of both the experimentally colonized "index mice" and the naive cohoused "contact mice." Here, we sought to use this model to further elucidate the factors which facilitate S. pneumoniae transmission. In the present report, we demonstrate that increasing the nasopharyngeal load of S. pneumoniae in the colonized index mice (via the depletion of neutrophils) and inducing a proinflammatory response in the naive cohoused contact mice (as demonstrated by cytokine production) facilitates S. pneumoniae transmission. Thus, these data provide the first insights into the factors that help mediate the spread of S. pneumoniae throughout the community. IMPORTANCE Streptococcus pneumoniae (the pneumococcus) is a major cause of worldwide morbidity and mortality and is a leading cause of death among children under the age of five years. Transmission of S. pneumoniae marks the first step toward disease development. Therefore, understanding the factors that influence the spread of pneumococci throughout the community plays an essential role in preventing pneumococcal disease. We previously developed the first reproducible infant mouse model for pneumococcal transmission and showed that coinfection with influenza virus facilitates the spread of S. pneumoniae. Here, we show that increasing the bacterial load in the nasal cavity of colonized individuals as well as inducing an inflammatory response in naive "contact cases" facilitates the spread of pneumococci. Therefore, this study helps to identify the factors which must be inhibited in or

Published
2012

22. NLRC4 inflammasomes in dendritic cells regulate noncognate effector function by memory CD8(+) T cells.

Author

Kupz, A., Guarda, G., Gebhardt, T., Sander, L.E., Short, K.R., Diavatopoulos, D.A., Wijburg, O.L., Cao, H., Waithman, J.C., Chen, W., Fernandez-Ruiz, D., Whitney, P.G., Heath, W.R., Curtiss R, 3.r.d., Tschopp, J., Strugnell, R.A., Bedoui, S., Kupz, A., Guarda, G., Gebhardt, T., Sander, L.E., Short, K.R., Diavatopoulos, D.A., Wijburg, O.L., Cao, H., Waithman, J.C., Chen, W., Fernandez-Ruiz, D., Whitney, P.G., Heath, W.R., Curtiss R, 3.r.d., Tschopp, J., Strugnell, R.A., and Bedoui, S.

Abstract

1 februari 2012, Item does not contain fulltext, Memory T cells exert antigen-independent effector functions, but how these responses are regulated is unclear. We discovered an in vivo link between flagellin-induced NLRC4 inflammasome activation in splenic dendritic cells (DCs) and host protective interferon-gamma (IFN-gamma) secretion by noncognate memory CD8(+) T cells, which could be activated by Salmonella enterica serovar Typhimurium, Yersinia pseudotuberculosis and Pseudomonas aeruginosa. We show that CD8alpha(+) DCs were particularly efficient at sensing bacterial flagellin through NLRC4 inflammasomes. Although this activation released interleukin 18 (IL-18) and IL-1beta, only IL-18 was required for IFN-gamma production by memory CD8(+) T cells. Conversely, only the release of IL-1beta, but not IL-18, depended on priming signals mediated by Toll-like receptors. These findings provide a comprehensive mechanistic framework for the regulation of noncognate memory T cell responses during bacterial immunity.

Published
2012

23. Influenza virus induces bacterial and nonbacterial otitis media.

Author

Short, K.R., Diavatopoulos, D.A., Thornton, R., Pedersen, J., Strugnell, R.A., Wise, A.K., Reading, P.C., Wijburg, O.L., Short, K.R., Diavatopoulos, D.A., Thornton, R., Pedersen, J., Strugnell, R.A., Wise, A.K., Reading, P.C., and Wijburg, O.L.

Abstract

Item does not contain fulltext, Otitis media (OM) is one of the most common childhood diseases. OM can arise when a viral infection enables bacteria to disseminate from the nasopharynx to the middle ear. Here, we provide the first infant murine model for disease. Mice coinfected with Streptococcus pneumoniae and influenza virus had high bacterial load in the middle ear, middle ear inflammation, and hearing loss. In contrast, mice colonized with S. pneumoniae alone had significantly less bacteria in the ear, minimal hearing loss, and no inflammation. Of interest, infection with influenza virus alone also caused some middle ear inflammation and hearing loss. Overall, this study provides a clinically relevant and easily accessible animal model to study the pathogenesis and prevention of OM. Moreover, we provide, to our knowledge, the first evidence that influenza virus alone causes middle ear inflammation in infant mice. This inflammation may then play an important role in the development of bacterial OM.

Published
2011

24. Using bioluminescent imaging to investigate synergism between Streptococcus pneumoniae and influenza A virus in infant mice

Author

Short, K.R., Diavatopoulos, D.A., Reading, P.C., Brown, L.E., Rogers, K.L., Strugnell, R.A., Wijburg, O.L., Short, K.R., Diavatopoulos, D.A., Reading, P.C., Brown, L.E., Rogers, K.L., Strugnell, R.A., and Wijburg, O.L.

Abstract

Item does not contain fulltext, During the 1918 influenza virus pandemic, which killed approximately 50 million people worldwide, the majority of fatalities were not the result of infection with influenza virus alone. Instead, most individuals are thought to have succumbed to a secondary bacterial infection, predominately caused by the bacterium Streptococcus pneumoniae (the pneumococcus). The synergistic relationship between infections caused by influenza virus and the pneumococcus has subsequently been observed during the 1957 Asian influenza virus pandemic, as well as during seasonal outbreaks of the virus (reviewed in (1, 2)). Here, we describe a protocol used to investigate the mechanism(s) that may be involved in increased morbidity as a result of concurrent influenza A virus and S. pneumoniae infection. We have developed an infant murine model to reliably and reproducibly demonstrate the effects of influenza virus infection of mice colonised with S. pneumoniae. Using this protocol, we have provided the first insight into the kinetics of pneumococcal transmission between co-housed, neonatal mice using in vivo imaging.

Published
2011

25. Influenza A virus facilitates Streptococcus pneumoniae transmission and disease.

Author

Diavatopoulos, D.A., Short, K.R., Price, J.T., Wilksch, J.J., Brown, L.E., Briles, D.E., Strugnell, R.A., Wijburg, O.L., Diavatopoulos, D.A., Short, K.R., Price, J.T., Wilksch, J.J., Brown, L.E., Briles, D.E., Strugnell, R.A., and Wijburg, O.L.

Abstract

1 juni 2010, Item does not contain fulltext, Streptococcus pneumoniae (the pneumococcus) kills approximately 1.6 million people annually. Pneumococcal infections predominantly manifest as pneumonia, sepsis, meningitis, and otitis media. S. pneumoniae is also a member of the normal nasopharyngeal flora, colonizing up to 80% of children. Infection with influenza A virus (IAV) has been associated with both pneumococcal disease and transmission. However, to date no animal model has been available to investigate the role of IAV in the spread of S. pneumoniae. Here we investigate pneumococcal-influenza synergism with a particular focus on the role of IAV on pneumococcal transmission. Infant mice were colonized with S. pneumoniae and subsequently infected with IAV 3 d later. Using this novel model we show increased pneumococcal colonization and disease in the presence of IAV. Notably, in vivo imaging showed that IAV was essential for the transmission of S. pneumoniae from colonized ("index") mice to their naive cohoused littermates ("contacts"). Transmission occurred only when all mice were infected with IAV and was prevented when an IAV-neutralizing antibody was used to inhibit IAV replication in either index mice or contact mice. Together, these data provide novel insights into pneumococcal-influenza synergism and may indicate a previously unappreciated role of IAV in the spread of S. pneumoniae.

Published
2010

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