Effects of cortisol, epinephrine, and bisphenol contaminants on the transcriptional landscape of marine mammal blubber
Kashiwabara, L.; Pirard, L.; Debier, C.; Crocker, D.; Khudyakov, J. (2023). Effects of cortisol, epinephrine, and bisphenol contaminants on the transcriptional landscape of marine mammal blubber. American Journal of Physiology-Regulatory Integrative and Comparative Physiology 325(5): R504-R522. https://dx.doi.org/10.1152/ajpregu.00165.2023 In: American Journal of Physiology-Regulatory Integrative and Comparative Physiology. Amer Physiological Soc: Bethesda. ISSN 0363-6119; e-ISSN 1522-1490, more | |
Keywords | Mammalia [WoRMS] Marine/Coastal | Author keywords | bisphenol; blubber; cortisol; epinephrine |
Authors | | Top | - Kashiwabara, L.
- Pirard, L., more
- Debier, C., more
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Abstract | Top ocean predators such as marine mammals are threatened by intensifying anthropogenic activity, and understanding the combined effects of multiple stressors on their physiology is critical for conservation efforts. We investigated potential interactions between stress hormones and bisphenol contaminants in a model marine mammal, the northern elephant seal (NES). We exposed precision-cut adipose tissue slices (PCATS) from blubber of weaned NES pups to cortisol (CORT), epinephrine (EPI), bisphenol A (BPA), bisphenol S (BPS), or their combinations (CORT-EPI, BPA-EPI, and BPS-EPI) ex vivo and identified hundreds of genes that were differentially regulated in response to these treatments. CORT altered expression of genes associated with lipolysis and adipogenesis, whereas EPI and CORT-EPI-regulated genes were associated with responses to hormones, lipid and protein turnover, immune function, and transcriptional and epigenetic regulation of gene expression, suggesting that EPI has wide-ranging and prolonged impacts on the transcriptional landscape and function of blubber. Bisphenol treatments alone had a weak impact on gene expression compared with stress hormones. However, the combination of EPI with bisphenols altered expression of genes associated with inflammation, cell stress, DNA damage, regulation of nuclear hormone receptor activity, cell cycle, mitochondrial function, primary ciliogenesis, and lipid metabolism in blubber. Our results suggest that CORT, EPI, bisphenols, and their combinations impact cellular, immune, and metabolic homeostasis in marine mammal blubber, which may affect the ability of marine mammals to sustain prolonged fasting during reproduction and migration, renew tissues, and mount appropriate responses to immune challenges and additional stressors. |
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