Melina M. Soares

Three Different Vaccines Based on the 140-Amino Acid MUC1 Peptide with Seven Tandemly Repeated Tumor-Specific Epitopes Elicit Distinct Immune Effector Mechanisms in Wild-Type Versus MUC1-Transgenic Mice with Different Potential for Tumor Rejection

Low-frequency CTL and low-titer IgM responses against tumor-associated Ag MUC1 are present in cancer patients but do not prevent cancer growth. Boosting MUC1-specific immunity with vaccines, especially effector mechanisms responsible for tumor rejection, is an important goal. We studied immunogenicity, tumor rejection potential, and safety of three vaccines: 1) MUC1 peptide admixed with murine GM-CSF as an adjuvant; 2) MUC1 peptide admixed with adjuvant SB-AS2; and 3) MUC1 peptide-pulsed dendritic cells (DC). We examined the qualitative and quantitative differences in humoral and T cell-mediated MUC1-specific immunity elicited in human MUC1-transgenic (Tg) mice compared with wild-type (WT) mice. Adjuvant-based vaccines induced MUC1-specific Abs but failed to stimulate MUC1-specific T cells. MUC1 peptide with GM-CSF induced IgG1 and IgG2b in WT mice but only IgM in MUC1-Tg mice. MUC1 peptide with SB-AS2 induced high-titer IgG1, IgG2b, and IgG3 Abs in both WT and MUC1-Tg mice. Induction of IgG responses was T cell independent and did not have any effect on tumor growth. MUC1 peptide-loaded DC induced only T cell immunity. If injected together with soluble peptide, the DC vaccine also triggered Ab production. Importantly, the DC vaccine elicited tumor rejection responses in both WT and MUC1-Tg mice. These responses correlated with the induction of MUC1-specific CD4+ and CD8+ T cells in WT mice, but only CD8+ T cells in MUC1-Tg mice. Even though MUC1-specific CD4+ T cell tolerance was not broken, the capacity of MUC1-Tg mice to reject tumor was not compromised.

Retroviral expression of MUC-1 human tumor antigen with intact repeat structure and capacity to elicit immunity in vivo.

MUC-1 mucin is an epithelial cell antigen whose aberrant expression plays a role in autoimmunity and tumor immunity and is thus an attractive candidate for immunotherapy of gene therapy. Because the MUC-1 cDNA is composed almost entirely of 60-bp tandem repeats and is susceptible to homologous recombination, it presents a special challenge to cloning and expression in viral vectors. Nevertheless, we have been successful in constructing a retroviral vector (MFG-MUC-1) with a 22-tandem repeat MUC-1 cDNA. Both stable and transient packaging cell lines are capable of producing high-titer retroviruses that can transfer the expression of MUC-1 to murine 3T3 cells. Transduced cells express uniformly high levels of MUC-1 on their surface, and western blot analysis reveals that the molecule expressed is of full length and extensively glycosylated. We have used the MFG-MUC-1 vector to stably transduce an immortalized murine dendritic cell line and show that immunization of mice with transduced cells elicits specific immune responses to mucin. The ability of this vector to transfer expression of the MUC-1 tumor antigen to potent antigen-presenting cells is expected to be of use in the immunotherapy of epithelial cancers.