Aim: To screen in vivo from a phage-displayed peptide library polypeptide fragments specific binding to vascular endothelial cells of gastric cancer xenografts, so as to provide for anti-angiogenesis therapy of tumor.
Methods: Immunosupressed mice models for human gastric cancer xeno-grafts were established by subrenal capsular assay (SR-CA). The 12-peptide library was panned through 4 rounds. Phages were recovered and titrated from tumor xenografts and control tissue (brain). The distribution of phage were detected in transplanted tumor tissues by immunohistochemical staining.
Results: Phage homing to gastric cancer xenografts were enriched through four rounds of panning,being 3.4-fold of that recovered from brain tissue. Peptide sequences were characterized for randomly picked-upclones and the peptide sequence YESIRIGVAPSQ appeared most frequently. Immunohistochemical staining for the homing phage revealed a specific vascular endothelial cell localization in gastric cancer xenografts 5 min after injection of the enriched phages. When the specific phage individually test-ed, the phage recovered from gastric cancer xenografts were as 4. 2 times as those from control tissue ( brain) , as 4.9 times as those from lung, as 5.4 times as those from heart.
Conclusion: The tumor-specific homing peptides may provide a effective tool for targeting tumor vasculature in anti-angiogenesis therapy of cancer. The in vivo selection technique in this study was feasible and applicable to screening peptides homing to vascular endothelial cells.