T-cell modulation combined with intratumoral CpG cures lymphoma in a mouse model without the need for chemotherapy
Roch Houot, Ronald Levy, Roch Houot, Ronald Levy
Abstract
We have previously shown that intratumoral injection of CpG oligodeoxynucleotide plus systemic chemotherapy can induce a T-cell immune response against lymphoma and serve as a therapeutic vaccine to cure tumors in a murine model. Here, we demonstrate that antibody-mediated modulation of T cells increases the efficacy of CpG vaccination, thereby eliminating the need for chemotherapy. T-cell modulation was accomplished by targeting both effector and regulatory T-cell populations using systemic administration of monoclonal antibodies against OX40, CTLA4, GITR, and folate receptor 4 (FR4). Each of these antibodies enhanced the effect of intratumoral CpG. Some pairwise combinations of these antibodies potentiated T-cell modulation and further enhanced the efficacy of CpG vaccination. Specifically, the combination of anti-OX40 and anti-CTLA4 which enhance activation and block cell-intrinsic negative regulatory circuits in T cells, respectively, was especially potent. When combined with intratumoral CpG, it induced antitumor CD4 and CD8 T-cell immunity, cured large and systemic lymphoma tumors without chemotherapy, and provided long-lasting immunity against tumor rechallenge. Our results show that the combination of intratumoral CpG and immunomodulatory T-cell antibodies has promise for therapeutic vaccination against lymphoma. These reagents are becoming available for human clinical trials.
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Source: PubMed