Activation of gastrin transcription in pancreatic insulinoma cells by a CACC promoter element and a 70-kDa sequence-specific DNA-binding protein.

Gastrin gene expression in the pancreatic islets is developmentally regulated and occurs largely during fetal life. Deletional analysis of transiently transfected rat insulinoma cells with gastrin 5'-flanking sequences in luciferase reporter genes demonstrated that the gastrin promoter sequence proximal to -111 base pairs (bp) contains the cis-regulatory elements necessary for maximal transcription. Mutational analysis identified the sequence CCCCACCCCA (-109 to -100 bp) as a positive cis-regulatory element (CACC) located 5' to a previously described negative element (-100 to -90 bp) and E-box positive element at -82 bp. Multimers of the CACC element in a heterologous promoter activated transcription independent of the other cis-regulatory elements. CACC binding proteins were purified from insulinoma cell nuclear extracts by cation exchange and affinity chromatography. Southwestern blot of nuclear extracts identified a 70-kDa CACC-binding protein. Mutational analysis of the CACC element showed a close correlation between DNA binding of this protein and transcriptional activation. Transcriptional activation by multimers of the CACC element in a heterologous promoter was detected in a variety of cell lines but was strongest in those of islet lineage. Likewise, the presence of the 70-kDa CACC-binding protein was found in many cell lines but was most abundant in the insulinoma cells. The CACC-binding protein has not been previously identified among the known pancreatic regulatory factors and may have an important role in the developmental expression of gastrin.