Abstract
Tissue plasminogen activator (t-PA) mRNA levels are high in murine brain, lower in kidney, and undetectable in liver. Differences in t-PA mRNA levels are regulated in part at the transcriptional level. Brain, kidney, and liver nuclear extracts direct regulated transcription from the murine t-PA promoter in a manner that reflects the relative levels of t-PA gene expression in these tissues in vivo. Analysis of mutants has defined two GC box motifs as important elements for regulated transcription in vitro. Upon investigation of proteinDNA binding, we detected an activity in brain extracts which was not detected in kidney or liver extracts. An Sp1-like factor also binds to this region in all three tissue types. DNA interference experiments show that the brain-enriched binding activity and the Sp1-like factor contact the same GC-rich sequences. These studies provide additional evidence that brain-enriched DNA-binding activities can interact with sequences also recognized by ubiquitous transcription factors.