Separate cis-acting DNA elements control cell type- and tissue-specific expression of collagen binding molecular chaperone HSP47

HSP47 is a collagen-binding heat shock protein and is assumed to act as a molecular chaperone in the biosynthesis and secretion of procollagen. As the synthesis of HSP47 is closely correlated with that of collagen in various cell lines and tissues, we performed a promoter/ reporter assay using HSP47-producing and nonproducing cells. 280 base pairs (bp(s)) of upstream promoter were shown to be necessary for the basal expression but not to be enough for the cell type-specific expression. When the first and the second introns were introduced downstream of this 280-bp region, marked up-regulation of the reporter activity was observed in HSP47-producing cells but not in nonproducing cells. This was confirmed in transgenic mice by staining the lacZ gene product under the control of the 280-bp upstream promoter and the introns, Staining was observed in skin, chondrocytes, precursor of bone, and other HSP47/collagen-producing tissues, A putative Sp1-binding site at -210 bp in the promoter, to which Sp3 and an unidentified protein bind, was shown to be responsible for this up-regulation when combined with the introns, However no difference in the binding to this probe was observed between HSP47-producing and nonproducing cells. The responsible region for cell type-specific upregulation was found to be located in a 500-bp segment in the first intron, On electrophoresis mobility shift assay using this 500-bp probe, specific DNA-protein complexes were only observed in HSP17-producing cell extracts. These results suggest that two separate elements are necessary for the cell type specific expression of the hsp47 gene; one is a putative Spl-binding site at -210 bp necessary for basal expression, and the other is a 500-bp region within the first intron, required for cell type-specific expression.