The lung enriched transcription factor TTF-1 and the ubiquitously expressed proteins Sp1 and Sp3 interact with elements located in the minimal promoter of the rat Clara cell secretory protein gene.

Abstract

The mechanisms that direct expression of the Clara cell secretory protein (CCSP) gene to the bronchiolar epithelial cells of the lung remain to be elucidated. Previous studies have identified a number of proteins which bind to a functionally important region (Region 1) located -132 to -76 bp from the transcription start site in the rat CCSP gene. Subsequently we have shown that while Region 1 is an important positive regulator of CCSP gene expression, sequences 3' of this region (-75 to +38) are sufficient to confer tissue-specific expression of a reporter gene. In the present study we have used transient transfections with a deletion series of CCSP-CAT reporter plasmids (where CAT is chloramphenicol acetyltransferase) and gel mobility shift assays with a series of overlapping oligonucleotides covering the whole minimal promoter region to study protein-DNA interactions within this region. These studies have identified a conserved functional binding site for the lung and thyroid enriched homeodomain transcription factor TTF-1, located between positions -51 and -42 from the transcription start site. CCSP-CAT chimaeric reporters containing this region are specifically activated by TTF-1 in co-transfection assays, and nuclear extracts from cells which express TTF-1 bind to this region, as does in vitro translated rat TTF-1. Three additional conserved regions were identified, and in further gel mobility shift studies with an oligonucleotide spanning the conserved region immediately 5' to the TTF-1 site we identified a binding site for the ubiquitously expressed zinc-finger-containing proteins Sp1 and Sp3. These studies suggest that cell-type-restricted and ubiquitous nuclear proteins may play a combined role in the regulation of the CCSP gene within the bronchiolar epithelium by interacting with the minimal promoter region.