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Article in Journal ()

Behavioural fever is a synergic signal amplifying the innate immune response

Citation
Boltana S, Rey S, Roher N, Vargas R, Huerta M, Huntingford FA, Goetz FW, Moore J, Garcia-Valtanen P, Estepa A & MacKenzie S (2013) Behavioural fever is a synergic signal amplifying the innate immune response, Proceedings of the Royal Society B: Biological Sciences, 280 (1766), Art. No.: 20131381.

Abstract
Behavioural fever, defined as an acute change in thermal preference driven by pathogen recognition, has been reported in a variety of invertebrates and ectothermic vertebrates. It has been suggested, but so far not confirmed, that such changes in thermal regime favour the immune response and thus promote survival. Here, we show that zebrafish display behavioural fever that acts to promote extensive and highly specific temperature-dependent changes in the brain transcriptome. The observed coupling of the immune response to fever acts at the gene-environment level to promote a robust, highly specific time-dependent anti-viral response that, under viral infection, increases survival. Fish that are not offered a choice of temperatures and that therefore cannot express behavioural fever show decreased survival under viral challenge. This phenomenon provides an underlying explanation for the varied functional responses observed during systemic fever. Given the effects of behavioural fever on survival and the fact that it exists across considerable phylogenetic space, such immunity-environment interactions are likely to be under strong positive selection.

Keywords
behavioural fever; anti-viral response; gene–environment interaction

StatusPublished
AuthorsBoltana Sebastian, Rey Sonia, Roher Nerea, Vargas Reynaldo, Huerta Mario, Huntingford Felicity A, Goetz Frederick William, Moore Janice, Garcia-Valtanen Pablo, Estepa Amparo, MacKenzie Simon
Publication date09/2013
Date accepted by journal14/06/2013
PublisherThe Royal Society
ISSN 0962-8452
LanguageEnglish

Journal
Proceedings of the Royal Society b: Biological Sciences: Volume 280, Issue 1766

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