J Biol Chem, Vol. 274, Issue 19, 12959-12962, May 7, 1999

COMMUNICATION
Domain Structure of Pleiotrophin Required for Transformation

From the Division of Growth Regulation, Beth Israel Deaconess Medical Center, Harvard Medical School, Boston, Massachusetts 02215

The pleiotrophin (PTN) gene (Ptn) is a potent proto-oncogene that is highly expressed in many primary human tumors and constitutively expressed in cell lines derived from these tumors. The product of the Ptn gene is a secreted 136-amino acid heparin binding cytokine with distinct lysine-rich clusters within both the N- and C-terminal domains. To seek domains of PTN functionally important in neoplastic transformation, we constructed a series of mutants and tested their transforming potential by four independent criteria. Our data establish that a domain within PTN residues 41 to 64 and either but not both the N- or C-terminal domains are required for transformation; deletion of both the N and C termini abolishes the transformation potential of PTN. Furthermore, deletion of two internal 5-amino acid residue repeats enhances the transformation potency of PTN 2-fold. Our data indicate that PTN residues 41-64 contain an essential domain for transformation and suggest the hypothesis that this domain requires an additional interaction of the highly basic clusters of the N or C terminus of PTN with a negatively charged "docking" site to enable the transforming domain itself to engage and initiate PTN signaling through its cognate receptor.