Aim: To explore the specific immunity of dendritic cell (DC) vaccine loading human umbilical vein endothelial cell (HUVEC) antigen.against U14 cervical cancer of mice.
Methods: Primary HUVECs were cultured, identified and made into antigen. The BALB/c mice were immunized with DCs loading HUVEC antigen 4 times a week. One week after last vaccination, U14 cervical cancer cells were injected subcutaneously into the mice. The tumor size, CTL response of spleen lymphocytes in vitro, the percentage of CD3(+)CD8(+) surface markers of spleen lymphocytes, and the titer of serum antibody were detected. The specific immunity was examined by immunocytochemistry and Western blot.
Results: HUVECs with high purity were successfully cultured and by identified by immunocytochemistry and RT-PCR. After the vaccine was injected into mice, the tumors of mice in PBS group grew faster than the those in other groups. The tumors of mice in HUVEC-DC groups grew slowly and disappeared after 2 weeks and The tumors of mice in DC group disappeared after 3 weeks. The CTL response of spleen lymphocytes in vitro showed that HUVEC-DC-T cells could kill HUVEC cells. The percentage of CD3(+)CD8(+) surface markers of spleen lymphocytes in HUVEC-DC group was higher than that in other groups. The titer of serum antibody was 1:800. immunocytochemistry analysis indicated HUVEC-DC group had specific antigen-antibody reaction to HUVECs through and Western blot analysis revealed there were specific bands at 130 KDa and 220 KDa.
Conclusion: HUVEC-DC vaccine and DC vaccine can inhibit the tumor growth of U14 cervical cancer of mice. The special cellular and humoral immunity are induced by HUVEC-DC vaccine. Furthermore, some antigens in HUVECs maybe have special immune reaction with integrin alphav and VEGF-R2.