cis regulation of the keratin 18 gene in transgenic mice

Abstract

The gene coding for human keratin 18 (K18), a type I intermediate filament protein found in a variety of simple epithelia, is regulated correctly in transgenic mice but is promiscuously expressed after direct transfection into cell culture lines. We have begun an investigation of the mechanisms responsible for the correct regulation of K18 with a comparison of the chromatin state of K18 in permissive and nonpermissive transgenic mouse tissues to identify seven expression-specific, DNase-hypersensitive sites that correlate with known or potential regulatory regions of the gene. Four of these sites are associated with the proximal promoter region and the first intron that has been implicated previously in the transcriptional control of K18. Two hypersensitive sites are associated with a conserved Alu repetitive sequence located immediately upstream of the proximal promoter elements. Transcription of this Alu element in a direction opposite that of K18 was correlated with K18 expression in transgenic tissues. The final hypersensitive site was mapped to exon 6. The potential importance of this region for the expression of K18 was supported by the results of transient expression of the gene and various deleted constructions. In addition, exon 6 and the intron 1 regulatory region were distinguished from the remainder of K18 by differential DNA methylation in expressing and nonexpressing tissues. The CpG-rich proximal promoter and first exon regions remain unmethylated in both permissive and nonpermissive tissues. These results suggest that DNA methylation is not the primary mechanism of control of the gene. An Alu RNA polymerase III transcription unit and exon 6 are implicated in regulation of K18.