Functional comparison of the metal-regulated transcriptional control regions of metallothionein genes from cadmium-sensitive and tolerant fish species.

The promoter region of teleost metallothioneins (MTs) contains multiple metal-responsive elements (MREs) organized in proximal and distal clusters which together mediate gene induction by heavy metals. This arrangement of MREs is found both in cadmium-sensitive species, such as the rainbow trout, and in cadmium-tolerant species such as the pike and the stone loach. On comparison of the putative regulatory elements identified within the 5'-flanking region of these genes the major differences are that the number of MREs differ between the different species and that, while both the stone loach and rainbow trout MT genes contain TATA boxes, the pike MT gene has a TTTA box. In order to investigate if the metal sensitivity of a species is correlated to the regulatory potential of the putative MT detoxification system the promoter regions of MT genes from all three species were assessed for their ability to enhance transcription in response to the heavy metals Zn, Cd and Cu. The polymerase chain reaction was used to produce nested deletion sets of each promoter region and these were cloned into the mammalian expression vector pGL-2 upstream of the firefly luciferase gene. The inducibility of the different constructs in response to heavy metal challenge was tested in two cell lines, one fish cell line (homologous to rainbow trout and heterologous to the two other species), the rainbow trout hepatoma, RTH-149, cell line and one cell line that was heterologous to all studied species, the human hepatoblastoma; HepG2, cell line. Maximum inducibility of each gene was achieved with constructs containing both the proximal and the distal MRE clusters. Both the rainbow trout and the stone loach MT genes showed inducibility of comparable amplitude whilst the pike MT gene on the other hand was less inducible, partly due to fewer MREs and partly due to the TTTA box. These data indicate that more than one mechanism is responsible for the differences in cadmium sensitivity of these three teleost species. Although MT is the main heavy-metal detoxifying system in most vertebrates and appears to be contributing to the differences seen between rainbow trout and pike, the present study shows that the relative sensitivity of these species is not primarily due to MT.