Abstract
Peptide vaccines are safe, and aim to elicit and expand tumor-specific immunity so as to eradicate tumors. However, achieving strong and long-lasting anti-tumor immunity with peptide vaccines for the antigen-specific treatment of cancer is challenging, in part because their efficacy depends on strong adjuvants or immunomodulators. We approached this problem by conjugating an epitope-based cancer vaccine with a lipidated sequence (an immunomodulator) to elicit a strong immune response. Lipidated and non-lipidated polyepitope proteins were generated that contained the universal T helper cell epitope (pan-DR), B cell epitopes, and the extended loop sequence of extracellular domain 2 of tumor-associated antigen L6 (TAL6). We show that the lipidated polyepitope cancer vaccine can activate bone marrow-derived dendritic cells, and trigger effective antigen-specific antibody and T helper cell responses, more effectively than the non-lipidated vaccine. Moreover, potent T cell immune responses were elicited in mice inoculated with the lipidated polyepitope cancer vaccine, providing protective antitumor immunity in mice bearing TAL6 tumors. Our study demonstrates that a lipidated polyepitope cancer vaccine could be employed to generate potent anti-tumor immune responses, including humoral and cellular immunity, which could be beneficial in the treatment of TAL6+ cancer.
Highlights
Cancer vaccines represent a promising strategy to generate a protective immune response in order to recognize and eliminate malignant cells
Characterization of Purified Recombinant Proteins Composed with Polyepitopes of tumor-associated antigen L6 (TAL6)
To activate the humoral and cellular immunity against tumor antigens by vaccination, we designed the polyepitopes, which are recombinant proteins constituted by multiple epitopes of TAL6, and a hexahistidine tag (HisTag) was included at the C-terminus of the multiple epitopes for purification (Figure 1A–C)
Summary
Cancer vaccines represent a promising strategy to generate a protective immune response in order to recognize and eliminate malignant cells. B cell epitope-based peptide vaccines have been widely used in infectious diseases that can induce neutralizing antibody responses [2,3]. Peptide-based vaccines consisting of immunogenic epitopes are widely used in cancer vaccine development [4]. The chimeric B cell epitope peptides of multiple receptor tyrosine kinases (HER-1, HER-3, IGF-1R and VEGF) incorporate a T cell epitope that elicits a polyclonal anti-tumor antibody response [6]. Several approaches have been developed to improve the immunogenicity of peptide vaccines, including combining them with different adjuvants and optimizing the delivery vectors
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