| Abstract [eng] |
In this dissertation the investigation of potential applications of hamster polyomavirus (HaPyV) major capsid protein VP1 based chimeric virus-like particles (VLPs) harboring CTL epitopes for anticancer vaccine development is presented. The objective of this study was to investigate the potential of recombinant HaPyV VP1 based VLPs for anticancer vaccine generation in model systems, including investigation of VP1 applicability for heterologous CTL epitopes insertions, VLPs assembly and ability to induce insert specific immune response in vivo. HaPyV VP1 VLPs carrying CLT epitopes derived from different proteins were generated, most suitable positions for insertion into VP1 protein were selected, the ways to improve assembly and yield of the chimeric VLPs were determined and new VLPs purification procedure was created allowing to purify VLPs cheaper, faster and more efficiently. HaPyV VP1 based VLPs ability to induce CTL immune response in vivo was evaluated for the first time. It was demonstrated that model chimeric VLPs were able to stimulate antigen specific CTL cells in vitro and in vivo, induced insert specific humoral and CTL immune response in vivo and protected mice from insert specific virus infection and antigen-specific tumor growth. Presented data confirmed that HaPyV protein VP1 is universal carrier for CTL epitopes, capable to tolerate insertions, to form VLPs and to induce effective, long lasting immune response against inserted antigens in vivo. |
