Hepatic Transcriptome Analysis Identifies Divergent Pathogen-Specific Targeting-Strategies to Modulate the Innate Immune System in Response to Intramammary Infection

Hepatic Transcriptome Analysis Identifies Divergent Pathogen-Specific Targeting-Strategies to Modulate the Innate Immune System in Response to Intramammary Infection

Mastitis is one of the major risks for public health and animal welfare in the dairy industry. Two of the most important pathogens to cause mastitis in dairy cattle are ( ) and ( ). While generally induces a chronic and subclinical mastitis, is an important etiological pathogen resulting in an acute...

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Published in:Frontiers in immunology Vol. 11; p. 715
Main Authors: Heimes, Annika, Brodhagen, Johanna, Weikard, Rosemarie, Seyfert, Hans-Martin, Becker, Doreen, Meyerholz, Marie M, Petzl, Wolfram, Zerbe, Holm, Hoedemaker, Martina, Rohmeier, Laura, Schuberth, Hans-Joachim, Schmicke, Marion, Engelmann, Susanne, Kühn, Christa
Format: Journal Article
Language:English
Published: Switzerland Frontiers Media S.A 29-04-2020
Subjects:
Animals
bovine
Cattle
Cohort Studies
Disease Models, Animal
E. coli
Escherichia coli - immunology
Escherichia coli Infections - immunology
Escherichia coli Infections - microbiology
Female
Gene Expression Profiling - methods
Host-Pathogen Interactions - immunology
Immunity, Innate - genetics
Immunology
Lactation
liver
Liver - metabolism
Liver - microbiology
Mammary Glands, Animal - immunology
Mammary Glands, Animal - microbiology
mastitis
Mastitis, Bovine - immunology
Mastitis, Bovine - microbiology
S. aureus
Staphylococcal Infections - immunology
Staphylococcal Infections - microbiology
Staphylococcus aureus - immunology
Transcriptome
bovine
S. aureus
mastitis
liver
transcriptome
E. coli
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Summary:Mastitis is one of the major risks for public health and animal welfare in the dairy industry. Two of the most important pathogens to cause mastitis in dairy cattle are ( ) and ( ). While generally induces a chronic and subclinical mastitis, is an important etiological pathogen resulting in an acute and clinical mastitis. The liver plays a central role in both, the metabolic and inflammatory physiology of the dairy cow, which is particularly challenged in the early lactation due to high metabolic and immunological demands. In the current study, we challenged the mammary glands of Holstein cows with or , respectively, mimicking an early lactation infection. We compared the animals' liver transcriptomes with those of untreated controls to investigate the hepatic response of the individuals. Both, and elicited systemic effects on the host after intramammary challenge and seemed to use pathogen-specific targeting strategies to bypass the innate immune system. The most striking result of our study is that we demonstrate for the first time that intramammary challenge causes an immune response beyond the original local site of the mastitis. We found that in the peripheral liver tissue defined biological pathways are switched on in a coordinated manner to balance the immune response in the entire organism. TGFB1 signaling plays a crucial role in this context. Important pathways involving actin and integrin, key components of the cytoskeleton, were downregulated in the liver of infected cows. In the hepatic transcriptome of infected cows, important components of the complement system were significantly lower expressed compared to the control cows. Notably, while inhibits the cell signaling by Rho GTPases in the liver, switches the complement system off. Also, metabolic hepatic pathways (e.g., lipid metabolism) are affected after mammary gland challenge, demonstrating that the liver restricts metabolic tasks in favor of the predominant immune response after infection. Our results provide new insights for the infection-induced modifications of the dairy cow's hepatic transcriptome following mastitis.
Bibliography:This article was submitted to Molecular Innate Immunity, a section of the journal Frontiers in Immunology
Reviewed by: Joan Clària, Hospital Clínic de Barcelona, Spain; Dan Anthony Mitchell, University of Warwick, United Kingdom
Edited by: Robert Braidwood Sim, University of Oxford, United Kingdom
ISSN:1664-3224
1664-3224
DOI:10.3389/fimmu.2020.00715