Glucocorticoids exert their action on gene expression through activation of cytoplasmic glucocorticoid receptors (GRs) that bind to glucocorticoid response elements (GREs). The consensus GRE consists of two half sites (underlined), AGAACANNNTGTTCT. We have recently cloned the entire human elastin gene. Nucleotide sequencing of the promoter region disclosed the presence of three putative GREs with the downstream half-site sequence TGTTCC that has homology with the consensus GRE, although the upstream half site showed no homology. To examine the functionality of these putative GREs in binding to the GRs, we performed gel mobility shift and supershift assays with synthetic oligomers containing the putative GREs and a recombinant GR protein, expressed in a baculovirus system. All three GREs identified in the elastin promoter bound the receptor. A chimeric oligonucleotide containing the upstream consensus GRE half site and the downstream elastin promoter GRE half site was capable of binding the receptor, and this binding could be competed with the elastin promoter GRE. Nonconservative substitution of single nucleotides (positions 1-6) in the elastin GRE indicated that mutations in the positions 1-3 and 6 had relatively little effect, but substitutions in positions 4 and 5 rendered the oligomer less effective in competing for the binding. These observations suggest that the downstream half site of GREs in the human elastin promoter is sufficient for receptor binding and certain nucleotides are critical for the efficient binding. The results also imply that the three GREs within the human elastin promoter are active and mediate the glucocorticoid-induced up-regulation of human elastin promoter activity.