Lipid accumulation and gene expression changes induced by tributyltin exposure in primary hepatocytes of lined seahorse (Hippocampus erectus)

Abstract

Tributyltin (TBT), an antifouling biocide frequently detected in aquatic systems, is generally considered to be an environmental obesogen. However, alterations in lipid metabolism in aquatic animals that are exposed to TBT are scarcely known. This study examined the effects of in vitro exposure to TBT on hepatic lipid homeostasis in the lined seahorse (Hippocampus erectus). Primary seahorse hepatocyte cultures were established for the first time. TBT exposure (100 and 500 nM for 24 h) significantly promoted lipid accumulation in seahorse hepatocytes and drastically reduced the number of active intracellular lysosomes. Furthermore, exposure to TBT significantly upregulated the gene expression of lipogenic enzymes and transcription factors but downregulated that of genes involved in the catabolism of lipid droplets in seahorse hepatocytes. These results indicate that TBT disrupts hepatic lipid homeostasis by simultaneously promoting lipid synthesis and inhibiting lipid droplet breakdown in seahorses. The present study extends our understanding of the utilization of primary hepatocytes from marine animals for toxicological research, and the molecular evidence of the effects of TBT on hepatic lipid homeostasis in teleost fishes.