FN Archimer Export Format PT J TI Transgenerational regulation of cbln11 gene expression in the olfactory rosette of the European sea bass (Dicentrarchus labrax) exposed to ocean acidification BT AF Mazurais, David Servili, Arianna Noel, Cyril Cormier, Alexandre Collet, Sophie Leseur, Romane Le Roy, Maelenn Vitré, Thomas Madec, Lauriane Zambonino-Infante, Jose-Luis AS 1:1;2:1;3:1;4:2;5:1;6:1;7:1;8:1;9:1;10:1; FF 1:PDG-RBE-PFOM-LARN;2:PDG-RBE-PFOM-LARN;3:PDG-IRSI-SEBIMER;4:PDG-IRSI-SEBIMER;5:PDG-RBE-PFOM-LARN;6:;7:PDG-RBE-PFOM-LARN;8:PDG-RBE-PFOM-LARN;9:PDG-RBE-PFOM-LARN;10:PDG-RBE-PFOM-LARN; C1 IFREMER, Univ Brest, CNRS, IRD, LEMAR, F-29280, Plouzané, France IFREMER, SEBIMER, F-29280, Plouzané, France C2 IFREMER, FRANCE IFREMER, FRANCE SI BREST SE PDG-RBE-PFOM-LARN PDG-IRSI-SEBIMER UM LEMAR IN WOS Ifremer UPR WOS Ifremer UMR IF 3.13 TC 7 UR https://archimer.ifremer.fr/doc/00630/74169/73769.pdf LA English DT Article AB Elevated amounts of atmospheric CO2 are causing ocean acidification (OA) that may affect marine organisms including fish species. While several studies carried out in fish revealed that OA induces short term dysfunction in sensory systems including regulation of neurons activity in olfactory epithelium, information on the effects of OA on other physiological processes and actors is scarcer. In the present study we focused our attention on a European sea bass (Dicentrarchus labrax) sghC1q gene, a member of the C1q-domain-containing (C1qDC) protein family. In vertebrates, C1qDC family includes actors involved in different physiological processes including immune response and synaptic organization. Our microsynteny analysis revealed that this sghC1q gene is the orthologous gene in European sea bass to zebrafish (Danio rerio) cbln11 gene. We cloned the full length cbln11 mRNA and identified the different domains (the signal peptide, the coiled coil region and the globular C1q domain) of the deduced protein sequence. Investigation of mRNA expression by qPCR and in situ hybridization revealed that cbln11gene is especially expressed in the non-sensory epithelium of the olfactory rosette at larval and adult stages. The expression of cbln11 mRNA was analysed by qPCR in the first generation (F0) of European sea bass broodstock exposed since larval stages to water pH of 8.0 (control) or 7.6 (predicted for year 2100) and in their offspring (F1) maintained in the environmental conditions of their parents. Our results showed that cbln11 mRNA expression level was lower in larvae exposed to OA then up-regulated at adult stage in the olfactory rosette of F0 and that this up-regulation is maintained under OA at larval and juvenile stages in F1. Overall, this work provides evidence of a transgenerational inheritance of OA-induced up-regulation of cbln11 gene expression in European sea bass. Further studies will investigate the potential immune function of cbln11 gene and the consequences of these regulations, as well as the possible implications in terms of fitness and adaptation to OA in European sea bass. PY 2020 PD JUN SO Marine Environmental Research SN 0141-1136 PU Elsevier BV VL 159 UT 000549328000028 DI 10.1016/j.marenvres.2020.105022 ID 74169 ER EF