Peptides designed from molecular modeling studies of the ras-p21 protein induce phenotypic reversion of a pancreatic carcinoma cell line but have no effect on normal pancreatic acinar cell growth.

PURPOSE: From molecular modeling studies we found that two ras-p21 peptides, corresponding to p21 residues 35-47 (PNC-7) and 96-110 (PNC-2), selectively block oncogenic (Val 12-p21), but not insulin-activated wild-type, p21-induced oocyte maturation. Our purpose was to determine if these peptides block the growth of mammalian cancer cells but not their normal counterpart cells. METHODS: Since oncogenic ras has been implicated as a causative factor in over 90% of human pancreatic cancers, we have established a normal pancreatic acinar cell line (BMRPA1) and the corresponding ras-transformed pancreatic cancer cell line (TUC-3). We treated both cell lines with PNC-7 and PNC-2 and the unrelated negative control peptide, X13, attached to the penetratin sequence that allows membrane penetration and also transfected these cell lines with plasmids encoding all three peptides. RESULTS: Treatment of TUC-3 cells with each peptide resulted in their complete phenotypic reversion to the untransformed phenotype as revealed by the lack of tumor formation of these revertant cells implanted in the peritoneal cavities of nude mice. In contrast, treatment with X13-leader resulted in no inhibition of cell growth. Identical results were obtained when TUC-3 cells were transfected with plasmids expressing PNC-2, PNC-7 and X13. None of these peptides affected the normal growth of BMRPA1 cells. CONCLUSIONS: PNC-2 and PNC-7 peptides induce phenotypic reversion of ras-induced pancreatic cancer cells and have no effect on normal pancreatic cell growth. Since the plasmid encoding PNC-2 without penetratin also had the same effect on the TUC-3 cell line, we conclude that the penetratin sequence has no effect on the activity of this peptide. Since X13 attached to penetratin had no effect on TUC-3 cells, the effect is specific for PNC-2 and PNC-7 and further confirms that the effect is not caused by the penetratin sequence. PNC-2- and PNC-7-penetratin may therefore be useful in the treatment of ras-induced pancreatic carcinomas.

The interaction of Pax5 (BSAP) with Daxx can result in transcriptional activation in B cells.

Pax5 (BSAP) is essential for B cell development and acts both as a transcriptional activator and a repressor. Using a yeast two-hybrid assay to identify potential coregulators of Pax5, we identified Daxx, a protein that is highly conserved, ubiquitously expressed, and essential for embryonic mouse development. The interaction between Pax5 and Daxx involves the partial homeodomain of Pax5 and the C-terminal fragment of Daxx. A component of promyelocytic leukemia protein nuclear bodies, Daxx has been implicated in apoptosis and characterized as a transcriptional corepressor. Upon transient transfection assay of Daxx in B cells expressing endogenous Daxx and Pax5, we observed not only transcriptional corepression but also, unexpectedly, coactivation in M12.4.1 and A20 mouse B cell lines. Pax5 domains required for coactivation were identified using 293T cells. Coactivation apparently involves recruitment of the CREB binding protein (CBP), because we precipitated complexes containing Pax5, Daxx, and CBP in B cell lines. These data suggest that Daxx can affect Pax5's roles as an activator or repressor in B cells and describe a role for Daxx as a transcriptional coactivator.