The EphA2 receptor tyrosine kinase has emerged as a promising new therapeutic target in cancer due to its high expression in tumors. EphA2-specific antibodies have been used to deliver drugs and toxins to tumor cells, leading to inhibition of tumor growth and metastatic dissemination. We previously identified two related peptides, YSA and SWL, that selectively bind to the ligandbinding domain of EphA2 but not other Eph receptors, and could therefore be useful as selective targeting agents. Here we characterize the two peptides and a series of derivatives. Based on systematic amino acid replacements, only 5 YSA residues appear to be critical for high affinity receptor binding. Furthermore, a peptide comprising only the first 5 residues of YSA retains selectivity for EphA2. Similar to ephrin-A1, the physiological ligand for EphA2, both YSA and SWL activate EphA2 and inhibit downstream oncogenic signaling pathways in PC3 cancer cells. The two peptides and derivatives are quite stable in conditioned cell culture medium and show promise for delivering drugs and imaging agents to EphA2-expressing tumors.The EphA2 receptor tyrosine kinase, a member of the large Eph receptor family, is a promising therapeutic target in cancer because it is widely overexpressed in many cancer types, including breast, ovarian, prostate, pancreatic and lung cancer (1-3). EphA2 is present not only in the tumor cells but also in the tumor vasculature, while it is undetectable in normal quiescent vasculature (4,5). Furthermore, high EphA2 levels have been associated with a poor clinical prognosis (1-3) and with the more malignant, basal type of breast and prostate cancers (6,7). EphA2 overexpression has indeed been shown to induce oncogenic transformation and invasiveness of cultured mammary epithelial cells (8), and EphA2 downregulation with siRNA or anti-sense oligonucleotides has a negative impact on tumor growth and metastasis in mouse cancer models (9,10). Interestingly, EphA2 is tyrosine phosphorylated (activated) at low to undetectable levels in most tumors, suggesting an oncogenic role that is independent of ligand-mediated activation (11-13).Five glycosylphosphatidylinositol (GPI)-linked ligands (ephrin-A1 to -A5) can induce EphA2 tyrosine phosphorylation and activation in mammalian cells (14). A number of † This work was supported by NIH grant CA82713 (to EBP), a grant from MedImmune (to EBP), and Department of Defense Breast Cancer Research Program grant W81XWH-07-1-0462 (to ZH and EBP), Prostate Cancer Research Program grant W81XWH-06-1-0077 (to EBP) and Postdoctoral Fellowship DAAMD17-01-1-0168 (to MK). (11,13,15). Therefore, EphA2 functions as a tumor suppressor when its signaling ability is activated by ephrin ligands, whereas its tumor promoting effects may be ligand-independent (3,12,13,16).A number of EphA2-targeting agents have been developed. Several agonistic monoclonal antibodies and ephrin-A1 Fc, a soluble form of ephrin-A1, have been shown to decrease tumor growth and metastasis in mouse models (17)(18)(19)(20...
