Dietary cadmium and benzo(a)pyrene increased intestinal metallothionein expression in the fish Fundulus heteroclitus

To test the effect of dietary exposure to cadmium and benzo(a)pyrene on induction of metallothionein mRNA in the Fundulus heteroclitus, fish were individually fed a pelletized gel food containing cadmium, benzo(a)pyrene, or a combination of the two over a period of seven days, then analyzed for relative levels of metallothionein mRNA in the intestine, liver, and gill using real-time RT-qPCR. An initial experiment with only cadmium exposure showed an apparent 10-fold induction in the intestine, but no induction in liver or gill. Ingestion of contaminated pellets varied in individual fish, and because it was possible to monitor individual ingestion rates with our method, individual cadmium doses were estimated from the amount of ingested cadmium. When the levels of metallothionein mRNA were related to the dose to each fish, a linear dose-response relationship was observed for the intestine, but not the other organs, which showed no induction. In a second experiment, dose was controlled by placing the entire daily cadmium dose into a single contaminated pellet that was fed first (thereby, effectively controlling the effect of variable ingestion rates), and the interaction between cadmium and benzo(a)pyrene was also investigated. The intestine was again the primary organ for metallothionein induction by cadmium, with a 20-fold increase in metallothionein mRNA over control levels. When benzo(a)pyrene was administered together with cadmium, induction of metallothionein was potentiated by the presence of benzo(a)pyrene, with the main effect seen in the intestine, where already high levels of induction by cadmium alone increased by 1.74-fold when benzo(a)pyrene was present.