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Proc Biol Sci


Title:"Epidermal 'alarm substance' cells of fishes maintained by non-alarm functions: possible defence against pathogens, parasites and UVB radiation"
Author(s):Chivers DP; Wisenden BD; Hindman CJ; Michalak TA; Kusch RC; Kaminskyj SG; Jack KL; Ferrari MC; Pollock RJ; Halbgewachs CF; Pollock MS; Alemadi S; James CT; Savaloja RK; Goater CP; Corwin A; Mirza RS; Kiesecker JM; Brown GE; Adrian JC; Krone PH; Blaustein AR; Mathis A;
Address:"Department of Biology, University of Saskatchewan, 112 Science Place, Saskatoon, Saskatchewan, Canada. doug.chivers@usask.ca"
Journal Title:Proc Biol Sci
Year:2007
Volume:274
Issue:1625
Page Number:2611 - 2619
DOI: 10.1098/rspb.2007.0709
ISSN/ISBN:0962-8452 (Print) 1471-2954 (Electronic) 0962-8452 (Linking)
Abstract:"Many fishes possess specialized epidermal cells that are ruptured by the teeth of predators, thus reliably indicating the presence of an actively foraging predator. Understanding the evolution of these cells has intrigued evolutionary ecologists because the release of these alarm chemicals is not voluntary. Here, we show that predation pressure does not influence alarm cell production in fishes. Alarm cell production is stimulated by exposure to skin-penetrating pathogens (water moulds: Saprolegnia ferax and Saprolegnia parasitica), skin-penetrating parasites (larval trematodes: Teleorchis sp. and Uvulifer sp.) and correlated with exposure to UV radiation. Suppression of the immune system with environmentally relevant levels of Cd inhibits alarm cell production of fishes challenged with Saprolegnia. These data are the first evidence that alarm substance cells have an immune function against ubiquitous environmental challenges to epidermal integrity. Our results indicate that these specialized cells arose and are maintained by natural selection owing to selfish benefits unrelated to predator-prey interactions. Cell contents released when these cells are damaged in predator attacks have secondarily acquired an ecological role as alarm cues because selection favours receivers to detect and respond adaptively to public information about predation"
Keywords:Animal Communication Animals Biological Evolution Cell Proliferation Cyprinidae/microbiology/parasitology/*physiology *Epidermal Cells Epidermis/microbiology/parasitology/radiation effects Fungi Perciformes/microbiology/parasitology/*physiology Pheromones;
Notes:"MedlineChivers, Douglas P Wisenden, Brian D Hindman, Carrie J Michalak, Tracy A Kusch, Robin C Kaminskyj, Susan G W Jack, Kristin L Ferrari, Maud C O Pollock, Robyn J Halbgewachs, Colin F Pollock, Michael S Alemadi, Shireen James, Clayton T Savaloja, Rachel K Goater, Cameron P Corwin, Amber Mirza, Reehan S Kiesecker, Joseph M Brown, Grant E Adrian, James C Jr Krone, Patrick H Blaustein, Andrew R Mathis, Alicia eng Research Support, Non-U.S. Gov't England 2007/08/10 Proc Biol Sci. 2007 Oct 22; 274(1625):2611-9. doi: 10.1098/rspb.2007.0709"

 
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