Abstract

Tumor growth depends on blood supply, requiring the development of new vessels, and vascular endothelial growth factor (VEGF) plays a central role in neoangiogenic processes. For this reason, VEGF represents a target for the development of new therapeutic antiangiogenic molecules. Clinical trials using anti-VEGF mAbs such as bevacizumab have validated the efficacy of this therapeutic approach but have also revealed adverse effects. Here we report that a VEGF-derived immunogen, consisting of a heterocomplex of a murine (m)VEGF and keyhole limpet hemocyanin, called "mVEGF kinoid," triggered a strong Ab immune response in mice. The anti-VEGF Abs inhibited both the proliferation of human umbilical vein endothelial cells cultured in the presence of mVEGF and the binding of mVEGF to its receptor-2 Flk-1. In mVEGF kinoid-immunized BALB/c mice challenged with syngeneic CT26 colorectal tumor cells, the number and size of lung metastases were significantly decreased. In human (h)VEGF kinoid-immunized BALB/c mice, high levels of serum Abs to hVEGF were present, and purified IgG from these mice decreased by > or =50% the tumor growth of human A673 rhabdomyosarcoma cells and HT29 colon carcinoma xenografted in Swiss nude and NOD/SCID mice, respectively. Tumor cell growth inhibition was similar to that observed in mice receiving therapeutic doses of bevacizumab. These experiments suggest that a therapeutic vaccine containing VEGF kinoid may represent a strategy for safely combating VEGF-dependent neovascularization and metastases occurring in malignant tumors.