Les différences dans l'expression génétique du cerveau plaident pour un rôle important de la fonction cognitive dans la migration de montaison et l'ascension des obstacles chez l'anguille européenne

International audience; Background: European eel is a panmictic species, whose decline has been recorded since the last 20 years. Amonghuman-induced environmental factors of decline, the impact of water dams during species migration is questioned. The main issue of this study was to pinpoint phenotypic traits that predisposed glass eels to successful passage by water barriers. The approach of the study was individual-centred and without any a priori hypothesis on traits involved in the putative obstacles selective pressure. We analyzed the transcription level of 14,913 genes.Results: Transcriptome analysis of three tissues (brain, liver and muscle) from individuals sampled on three successive forebays separated by water obstacles indicated different gene transcription profiles in brain between the two upstream forebays. No differences in gene transcription levels were observed in liver and muscle samples among segments. A total of 26 genes were differentially transcribed in brain. These genes encode for, among others, keratins, cytokeratins, calcium binding proteins (S100 family), cofilin, calmodulin, claudin and thy-1 membrane glycoprotein. The functional analysis of these genes highlighted a putative role of cytoskeletal dynamics and synaptic plasticity in fish upstream migration.Conclusion: Synaptic connections in brain are solicited while eels are climbing the obstacles with poorly designedfishways. Successful passage by such barriers can be related to spatial learning and spatial orientation abilities when fish is out of the water.