LZIP-1 and LZIP-2: two novel members of the bZIP family.

A large family of bZIP proteins, containing a basic DNA-binding domain and a leucine zipper, have been described that recognize the CRE and AP-1 elements. Here, we have identified two new members, designated LZIP-1 and LZIP-2. The murine cDNA for LZIP-1 coded for a 379-amino-acid (aa) residue protein containing several distinct domains, including a Ser-rich region, a basic DNA-binding region, and an unusually long leucine zipper. A second form, LZIP-2, contained an additional 25 aa in the N-terminal region. Western immunoblotting revealed that antibody raised against part of recombinant LZIP-1 detected both forms in a variety of tissues. Gel mobility shift assays demonstrated that the recombinant protein possessed specific DNA-binding activity for both the CRE AP-1 sites. The present identification of two more ubiquitous members of the bZIP family emphasizes the complex nature of transcription factor interactions at the CRE and AP-1 sites.

Characterization of a cis-acting element required for efficient transcriptional activation of the collagen IV enhancer.

Two regulatory regions in the murine collagen IV enhancer were identified. Transient transfection assays delimited a 210-base pair fragment within the first intron of the alpha 1(IV) collagen gene that had significant transcriptional enhancer activity. DNase I protection and gel mobility shift confirmed that two regions, designated footprints A and B, within this fragment bound nuclear factors. Gel shift studies suggested that the CCTTATCTCTGATGG motif (A-34) in the footprint A region was important for specific nuclear factor binding. Mutations in the A-34 motif abolished factor binding as detected by gel shift and resulted in a significant decrease in enhancer activity in transient transfection assays of F9 teratocarcinoma cells. Two putative transcription factors of Mr = 37,000 and Mr = 94,000, which interact with the A-34 motif, were purified from Engelbreth-Holm-Swarm tumor tissue using DEAE-Sephacel, heparin-Sepharose, salmon sperm DNA-Sepharose, and specific A-34 oligonucleotide affinity chromatography. Southwestern analysis revealed that both of these factors were capable of binding the A-34 oligonucleotide directly and did not require additional subunits for binding. These data suggest that positively acting transcription factor(s) interact with the A-34 site in the enhancer and are required for efficient transcription of the alpha 1 and alpha 2(IV) collagen chain genes.