Random peptide phage display libraries have been employed widely to identify protein-protein interactions, using as targets either purified proteins, intact cells, or organs. To isolate peptides that bind to human neuroblastoma cells, we have used a phage display approach with the neuroblastoma cell line WAC 2 as the target. In particular, two bacteriophages, t147 and t160, displaying peptides p147 and p160, respectively, were isolated by repeated display cycles. Binding of t147 and t160 to WAC 2 cells was abrogated by pretreatment with the peptides p147 and p160, respectively, which strongly support that cellular binding of both phages is dictated by their displayed peptides. Immunofluorescence analysis by confocal light microscopy revealed that the major proportion of t147 remains on the surface of WAC 2 cells and that only a fraction is taken up into the cells. In contrast, the vast majority of t160 is internalized. K(+) depletion reduced the number of the phages internalized by the cells to approximately 20% for t160 and to 10% for t147, indicating that the phage internalization was through receptor-mediated endocytosis. Phage t147 appears to bind to a range of tumor cell lines, including neuroblastoma, breast cancer, glioblastoma and C-cell carcinoma, but less so to non-tumor lines, such as erythrocytes, lymphocytes, monocytes and epithelial cells. Phage t160 bound to a range of neuroblastoma cell lines and a breast cancer cell line, but not to other tested cell lines. While neither of the displayed peptides conferred a narrow tissue specific binding ability, they do provide a basis for targeted drug delivery in selected experimental or natural tumor systems.