In vivo cytokine response to experimental feline infectious peritonitis virus infection

Dean, Gregg A.; Olivry, Thierry; Stanton, Christine; Pedersen, Niels C

doi:10.1016/j.vetmic.2003.08.010

Cited by 52 publications

(83 citation statements)

References 34 publications

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“…In contrast, the 18 cats that died within 4 weeks of infection demonstrated a precipitous drop in blood lymphocytes starting at 2 weeks post-infection. A similarly profound decrease in blood lymphocytes has been previously associated with disease signs in experimental FIPV infection (Dean et al, 2003), and varying degrees of lymphopenia are a common feature of naturally occurring FIP (Pedersen, 2009). Although T lymphocytes were entering diseased tissues, their proportion was low compared to macrophages and their numbers not appear sufficient to be solely responsible for the pronounced lymphopenia.…”

Section: Discussionmentioning

confidence: 67%

“…FIPV does not appear to replicate in enterocytes (Chang et al, 2010;Pedersen et al, 2012), and was first associated with macrophages by electron microscopy and immunohistochemistry (Ward, 1970;Pedersen and Boyle, 1980). Dean et al (2003) studied the distribution of FIPV by immunofluorescence at the time of death in experimentally infected cats and also found macrophages to be heavily infected in mediastinal and mesenteric lymph nodes and spleen, with much less evidence of infection in peripheral tissues such as popliteal and cervical lymph nodes and bone marrow.…”

Section: Introductionmentioning

confidence: 99%

“…Lymphopenia is a consistent feature of both naturally (Pedersen, 2009(Pedersen, , 2014b and experimentally induced-FIP (Dean et al, 2003;de Groot-Mijnes et al, 2005). The role of lymphopenia in FIP has not been determined, but it has been equated with a decrease in cellular immunity and ultimate disease outcome in experimental infections (de Groot-Mijnes et al, 2005;Vermeulen et al, 2013).…”

Section: Introductionmentioning

confidence: 99%

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Levels of feline infectious peritonitis virus in blood, effusions, and various tissues and the role of lymphopenia in disease outcome following experimental infection

Pedersen

Eckstrand

Liu

et al. 2015

Veterinary Microbiology

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Twenty specific pathogen free cats were experimentally infected with a virulent cat-passaged type I field strain of FIPV. Eighteen cats succumbed within 2-4 weeks to effusive abdominal FIP, one survived for 6 weeks, and one seroconverted without outward signs of disease. A profound drop in the absolute count of blood lymphocytes occurred around 2 weeks post-infection (p.i.) in cats with rapid disease, while the decrease was delayed in the one cat that survived for 6 weeks. The absolute lymphocyte count of the surviving cat remained within normal range. Serum antibodies as measured by indirect immunofluorescence appeared after 2 weeks p.i. and correlated with the onset of disease signs. Viral genomic RNA was either not detectable by reverse transcription quantitative real-time PCR (RT-qPCR) or detectable only at very low levels in terminal tissues not involved directly in the infection, including hepatic and renal parenchyma, cardiac muscle, lung or popliteal lymph node. High tissue virus loads were measured in severely affected tissues such as the omentum, mesenteric lymph nodes and spleen. High levels of viral genomic RNA were also detected in whole ascitic fluid, with the cellular fraction containing 10-1000 times more viral RNA than the supernatant. Replicating virus was strongly associated with macrophages by immunohistochemistry. Virus was usually detected at relatively low levels in feces and there was no evidence of enterocyte infection. Viral genomic RNA was not detected at the level of test sensitivity in whole blood, plasma, or the white cell fraction in terminal samples from the 19 cats that succumbed or in the single survivor. These studies reconfirmed the effect of lymphopenia on disease outcome. FIPV genomic RNA was also found to be highly macrophage associated within diseased tissues and effusions as determined by RT-qPCR and immunohistochemistry but was not present in blood.

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Section: Discussionmentioning

confidence: 67%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Levels of feline infectious peritonitis virus in blood, effusions, and various tissues and the role of lymphopenia in disease outcome following experimental infection

Pedersen

Eckstrand

Liu

et al. 2015

Veterinary Microbiology

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“…It has been hypothesized that virulent FCoV strains arise by a genomic mutation, possibly within the 3c gene (Pedersen, 2009;Pedersen et al, 2009;Chang et al, 2010), but the mutation potentially involved in this pathogenic shift has never been identified (Kennedy et al, 2001;Rottier et al, 2005;Dye and Siddell, 2007;Lin et al, 2009). Experimental studies reported a low morbidity rate in cats inoculated with ''virulent'' FCoVs formerly classified as FIPV (Pedersen, 1987;Kipar et al, 2001;Dean et al, 2003;Kiss et al, 2004). All these findings support the hypothesis that the development of FIP depends on a specific FCoVhost interaction, mostly based on cell-mediated immunity (Pedersen, 1987(Pedersen, , 2009.…”

Section: Discussionmentioning

confidence: 78%

“…Specifically, although biased by the low number of observations and by the high individual variability, these results suggest that some sequences of FCoV protein N from ''avirulent'' or ''mixed'' strains can stimulate cell-mediated immunity, especially in cats in which cell-mediated immunity is primed by chronic diseases. Future larger studies are required to confirm the possible role of FCoV itself in stimulating the production of IFN-g, the key cytokine of cell-mediated immunity involved in the response against FCoVs and consequently responsible of viral persistence (Gunn-Moore et al, 1998;Dean et al, 2003;Foley et al, 2003;Kiss et al, 2004;Berg et al, 2005;Gelain et al, 2006;Giordano and Paltrinieri, 2009).…”

Section: Resultsmentioning

confidence: 99%

Production of IFN-γ in feline whole blood after incubation with potential T-cell epitopes of the nucleocapsid protein of feline coronavirus

Rossi

Cornaro

Battilani³

et al. 2011

Veterinary Microbiology

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Interferon gamma (IFN-γ) plays an important role in cell mediated responses against mutated feline coronavirus strains (FCoV) involved in the pathogenesis of feline infectious peritonitis (FIP). The aim of this study was to establish a combined in silico and in vitro approach to assess feline leukocyte production of IFN-γ in response to selected peptides of the nucleocapside protein (N) of FCoVs. To this aim, we designed, through a bioinformatic approach, 8 potentially immunogenic peptides from the protein N corresponding to sequences of residues 14, 182, 198 detected only in FCoVs from FIP cats (virulent strains), only in FCoVs from healthy cats (avirulent strains) and both in FIP and in healthy cats (mixed strains). The peptides or a sham solution were incubated with whole blood from 16 cats (7 healthy and 9 with chronic diseases other than FIP) and IFN-γ concentration was measured on plasma using an ELISA system. RT-PCR expression of IFN-γ mRNA was also evaluated after incubation of the peptides or a sham solution with whole blood from 4 clinically healthy cats. The mean plasma concentration of IFN-γ in samples incubated with peptides decreased and the expression of IFN-γmRNA did not change compared with the sham solution, except for some cats with chronic diseases (which probably have a "pre-activated" immune response). These cats responded to "avirulent" or "mixed" peptides by increasing the concentration of IFN-γ and the expression of IFN-γ mRNA. The combined approach employed in this study allowed us to identify potentially immunogenic peptides of FCoV N protein that can modulate the production of IFN-γ especially in cats with a "pre-activated" cell mediated response.

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Feline Coronavirus: Insights into the Pathogenesis and Diagnosis

Barua

Lockyear

Delmain

et al. 2022

Springer Protocols Handbooks

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In vivo cytokine response to experimental feline infectious peritonitis virus infection

Cited by 52 publications

References 34 publications

Levels of feline infectious peritonitis virus in blood, effusions, and various tissues and the role of lymphopenia in disease outcome following experimental infection

Levels of feline infectious peritonitis virus in blood, effusions, and various tissues and the role of lymphopenia in disease outcome following experimental infection

Production of IFN-γ in feline whole blood after incubation with potential T-cell epitopes of the nucleocapsid protein of feline coronavirus

Feline Coronavirus: Insights into the Pathogenesis and Diagnosis

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