Highlights
- Multigenerational exposure to OA has no impact on teeth mineralization in Sea bass.
- Of the 18703 genes expressed in the tongue, 295 exhibited OA-induced regulation.
- Genes related to cell stress, immune system and fatty acid sensitivity are regulated.
- OA impacts the branchial expression of p2ry4 gene involved in gustatory system.
Abstract
In this study, we examined the effect of near future ocean acidification (OA) on the transcriptome of a sensory organ in contact with surrounding water, the tongue in adult European sea bass (Dicentrarchus labrax) by mean of RNAseq experiment. We acquired a total of 14.1 Mb quality-trimmed reads covering 18,703 expressed genes from the tongue of fish reared from two generations at actual (pH 8.0 condition) and predicted near-future seawater pH (pH 7.6 condition). Gene ontologies analyses of expressed genes support the evidence that the tongue exhibits biological processes related to the sensory system, tooth mineralization and immune defences among others. Our data revealed only 295 OA-induced regulated genes with 114 up- and 181 down-regulated by OA. Functions over-represented encompass processes involved in organic substance metabolic process, RNA metabolism and especially RNA methylation which, combined with the regulation of some hsp genes expression, suggest a molecular response to stress which might contribute to lingual cell homeostasis under OA. The immune system process is also found enriched within OA-induced regulated genes. With the exception of one fatty acid receptor, known taste perception effectors were not impacted by OA in the tongue. However, a complementary droplet digital PCR approach dedicated to genes involved in gustatory signal transduction revealed the down regulation by OA of pyrimidinergic receptor (p2ry4) transcript expression in the gills of the fish. Combined with scanning electron microscopy analysis, our RNAseq data revealed that OA has no impact on processes related to teeth development and mineralization. Altogether, our data reveal that multigenerational exposure to OA has not a substantially effect on the tongue transcriptome but emphasis should be placed on investigating the potential physiological consequences related to the regulation of genes related to cell stress, immune system and fatty acid sensitivity to conclude on species resilience in face of OA.
Mazurais D., Simon V., Auffret P., Cormier A., Dauvé A., Madec L., Tanguy-Guillo B., Gayet N., Fleury E. & Le Luyer J., 2024. Mutligenerational chronic exposure to near future ocean acidification in European sea bass (Dicentrarchus labrax): insights into the regulation of the transcriptome in a sensory organ involved in feed intake, the tongue. Marine Environmental Research 202: 106775. doi: 10.1016/j.marenvres.2024.106775. Article (subscription required).
