Zn- and Mg- containing tricalcium phosphates-based adjuvants for cancer immunotherapy.

Zn-, and Mg-containing tricalcium phosphates (TCPs) loaded with a hydrothermal extract of a human tubercle bacillus (HTB) were prepared by immersing Zn-TCP and Mg-TCP in HTB-containing supersaturated calcium phosphate solutions. The in vitro and in vivo immunogenic activities of the HTB-loaded Zn-, and Mg-TCPs (Zn-Ap-HTB and Mg-Ap-HTB, respectively) were evaluated as potential immunopotentiating adjuvants for cancer immunotherapy. The Zn-Ap-HTB and Mg-Ap-HTB adjuvants showed no obvious cytotoxicity and more effectively stimulated granulocyte-macrophage colony-stimulating factor (GM-CSF) secretion by macrophage-like cells than unprocessed HTB or HTB-loaded TCP (T-Ap-HTB) in vitro. Zn-Ap-HTB and Mg-Ap-HTB mixed with liquid-nitrogen-treated tumor tissue markedly inhibited the in vivo development of rechallenged Lewis lung carcinoma (LLC) cells compared with T-Ap-HTB and the unprocessed HTB mixed liquid-nitrogen-treated tumor tissue. Zn-Ap-HTB and Mg-Ap-HTB contributed to eliciting potent systemic antitumor immunity in vivo.

A novel combined conjugate vaccine: enhanced immunogenicity of bFGF with CRM197 as a carrier protein.

Tumor growth is partly dependent on tumor-associated angiogenesis, which is regulated by angiogenic growth factors. As the first angiogenic growth factor to be identified, basic fibroblast growth factor (bFGF) plays a major role in angiogensis and tumor growth and has been an effective target for anti-tumor therapy. However, due to its low immunogenicity, injection with bFGF alone cannot stimulate the body to produce a strong immune response. In this study, we investigated the role of CF (containing bFGF and CRM197) assisted by CpG and alum in enhancing antigen-specific immune response and suppressing the growth of murine colon carcinoma. The results revealed that compared to bFGF, CF could not stimulate NIH-3T3 fibroblast proliferation even at a concentration of 10 µg/ml in vitro. In vivo, the CF-CpG-alum produced a stronger antigen-specific immune response and inhibited tumor growth. The anti-tumor activity was associated with generating antigen-specific antibody, suppressing angiogenesis, promoting the apoptosis of tumor cells and inducing the mixed Th1 and Th2 responses. This indicates that CRM197 may be an innovative intramolecular adjuvant and provides a rational preservation for mouse CT26 colon carcinoma.

Pre-clinical safety evaluation of heat shock protein 65-MUC1 peptide fusion protein.

With a goal of developing a medication for the treatment of MUC1 expressing human cancers, a recombinant heat shock protein 65-MUC1 fusion protein (HSP65-MUC1) between BCG derived heat shock protein 65 (HSP65) and MUC1 derived peptide (MUC1) was developed. To move the HSP65-MUC1 into a phase I clinical trial, a comprehensive non-clinical safety evaluation was conducted. The evaluation comprised of single-dose toxicity and repeat-dose toxicity studies both in mice and rhesus monkeys. The data from the study indicates that the treatment with HSP65-MUC1 is not associated with obvious toxicity in the tested animals. The changes in clinical chemistry and hematology in both the mice and monkeys were considered to be mild because there were no indications of overt toxicity after administering HSP65-MUC1. The data provided here contributed to the approval of initiating a phase I clinical trial with HSP65-MUC1 for the treatment of patients with MUC1-positive breast cancer in China.

Toxicity of a GM3 cancer vaccine in Macaca fascicularis monkey: a 12-month study.

GM3 is a ganglioside that has been biochemically identified as dominating the cell surface of several human tumours, but is also found on human normal cells at much lower density. Since GM3 is widely distributed in essentially all types of animal cells, there is a conflict with the concepts of tumour-associated antigen, immunogen, and toxicity. We have designed a GM3-based cancer vaccine for the treatment of human breast and melanoma tumours. Prior to the Phase I clinical trial, we carried out a 12-month dose repeated toxicity study in five male Macaca fascicularis monkeys. Four male monkeys were treated with placebo in a similar way. During the study, no differences were observed between control and treated monkeys related to daily clinical observations (other than local damage) including rectal temperature, blood pressure, respiratory and cardiac rates, weight gain, biochemical and hematological parameters (with the exception of transitory pathological changes), and anti-DNA and anti-nuclear antibodies, although treated monkeys consistently developed both IgM- and IgG-specific anti-GM3 antibodies. Sixty per cent of treated monkeys developed moderate local reactions at the injection site, which disappeared without sequels. We concluded that this GM3 cancer vaccine overcame in monkeys the natural tolerance to GM3 ganglioside evidenced by a strong immune response, while the local reactions elicited-were transitory without apparent important systemic toxicity effects.

Pre-clinical safety and efficacy of TA-CIN, a recombinant HPV16 L2E6E7 fusion protein vaccine, in homologous and heterologous prime-boost regimens.

Human papillomavirus (HPV) E6 and E7 oncoproteins are attractive targets for T-cell-based immunotherapy of cervical intraepithelial neoplasia (CIN) and cancer. A newly designed vaccine, comprising the HPV16 L2, E6 and E7 as a single fusion protein (TA-CIN), was shown to elicit HPV16-specific CTL, T-helper cells and antibodies in a pre-clinical mouse model. These immune responses effectively prevented outgrowth of HPV16-positive tumour cells in a prophylactic setting as well as in a minimal residual disease setting. CTL immunity was optimally induced when TA-CIN was employed in heterologous prime-boost regimens in combination with TA-HPV, a clinical grade vaccinia-based vaccine. These data provide a scientific basis for the use of TA-CIN, alone or in combination with TA-HPV in future human trials.