Functional analyses of promoter elements responsible for the differential expression of the human metallothionein (MT)-IG and MT-IF genes.

The sequences responsible for heavy metal-inducible expression are situated within the proximal 437 and 160 base pairs (bp) of MT-IF and MT-IG 5'-flanking sequence, respectively. Only 105 bp of proximal MT-IG 5'-flanking sequence containing a TATA box, two metal responsive elements (MREs), and three GC motifs and 147 bp of proximal MT-IF 5'-flanking sequence containing a TATCA box, four MREs, and two GC motifs were required for heavy metal-inducible expression. However, the proximal 111 bp of MT-IF 5'-flanking sequences (a TATCA box, two MREs, and two GC motifs) was not responsive to heavy metals and competes less efficiently than the 105-bp MT-IG fragment in a competition transfection analysis. The MT-IF promoter fragment containing MREc and MREd is substantially stronger and a more efficient competitor than the MT-IG promoter fragment containing MREc and MREd. Furthermore, the proximal 160 bp of MT-IG 5'-flanking sequence functions as a strong metal-inducible promoter but not as a metal-inducible enhancer. Mobility shift analysis of MT-IF and MT-IG promoter subregions suggests a correlation between protein binding to MRE sequences and MT gene expression. These data illustrate that the overall structural and functional organization of the MT-IF and MT-IG promoters are very different and that the molecular mechanisms governing differential expression levels of human MT genes are quite complex.