Enhancement of the anti-tumor efficacy of a GM-CSF-secreting tumor cell immunotherapy in preclinical models by cytosine arabinoside.

OBJECTIVE: Acute myeloid leukemia (AML) is a highly malignant neoplasm responsible for nearly 10,000 cancer-related deaths annually in the United States. Treatment options for elderly patients with AML remain limited. Standard regimens using cytarabine (cytosine arabinoside [AraC]), a nucleotide analogue, result in significant toxicity with poor overall response. Combination of a cytotoxic chemotherapy and tumor-specific immunotherapy has the potential to improve overall efficacy by inducing an anti-tumor immune response against minimal residual disease. The studies reported here were performed to evaluate the therapeutic benefit of combining a granulocyte macrophage colony-stimulating factor (GM-CSF)-secreting tumor cell immunotherapy with AraC treatment. MATERIALS AND METHODS: C57Bl/6 mice were challenged with C1498-luc cells intravenously and evaluated by in vivo imaging throughout the study to monitor the systemic progression of the tumor. Individual animals were euthanized when in vivo total photon counts exceeded 5 x 10(8) and/or when they were in poor clinical condition. Cytotoxicity assay was performed to evaluate effector function and flow cytometry was used for phenotyping of splenocytes from experimental animals. RESULTS: Administration of GM-CSF-secreting tumor cell immunotherapy during AraC -induced cytopenia enhanced the anti-tumor efficacy of the immunotherapy, resulting in prolonged survival. AraC treatment did not negatively impact antigen-specific T-cell activation elicited by the immunotherapy and surviving animals treated with the combination demonstrated strong tumor-specific memory responses. CONCLUSION: GM-CSF-secreting tumor cell immunotherapy in combination with AraC prolongs survival of tumor-bearing mice, with a median survival time of 61 days observed in mice treated with AraC alone and 90% of mice treated with the combination therapy still alive by day 150.

Administration of IFN-alpha enhances the efficacy of a granulocyte macrophage colony stimulating factor-secreting tumor cell vaccine.

IFN-alpha is approved for the treatment of multiple cancers. Its pleiotropic properties include inhibition of proliferation and angiogenesis and induction of apoptosis. Type I IFNs also exert immunomodulatory effects, which make it an appropriate candidate to combine with cancer vaccines. The studies reported herein show that 50% of mice reject established B16 tumors following treatment with the combination of a granulocyte macrophage colony-stimulating factor-secreting tumor cell vaccine (B16.GM) and subclinical doses of recombinant murine IFN-alpha delivered at the vaccine site. Similarly, 80% of mice treated with the combination reject established B16 tumors when recombinant murine IFN-alpha is given at the challenge site, suggesting that in the latter case its antiproliferative, proapoptotic, and antiangiogenic properties may be involved in controlling tumor growth. In contrast, fewer than 10% of mice reject the tumors when either one is used as a monotherapy. Furthermore, a 30-fold increase in the frequency of melanoma-associated antigen (Trp-2 and gp100) specific T cells was observed in mice treated with the combination when compared with unvaccinated controls. These data show that IFN-alpha combined with a granulocyte macrophage colony-stimulating factor-secreting tumor cell vaccine significantly enhances vaccine potency and may represent a potential new approach for tumor immunotherapy.