Conditional interleukin-12 gene therapy promotes safe and effective antitumor immunity.

We and others have previously demonstrated that (chronic) interleukin (IL)-12 gene therapy delivered intratumorally through ex vivo gene-engineered dendritic cell (DC) is competent to promote the regression of established murine tumors. In this report, we have developed a conditional expression system (rAd.RheoIL12) to determine the temporal requirements of transgenic IL-12p70 production by administered DC on therapeutic outcome in a subcutaneous B16 melanoma model. DCs infected with rAd.RheoIL12 (DC.RheoIL12) secreted IL-12p70 in a tightly regulated fashion in response to a synthetic diacylhydrazine small molecule ligand in vitro, and the treatment benefit of DC.RheoIL12 delivered into B16 lesions was strictly ligand dependent in vivo. Indeed, DC.RheoIL12-based therapy promoted the regression of established day 7 B16 tumor lesions after intratumoral injection, provided that ligand administration occurred within 24 h of DC injection and was sustained for approximately 5 or more days. Treatment efficacy was correlated to the magnitude of systemic anti-B16 CD8(+) T cells cross-primed in vivo, which in turn, appeared dependent on the early enhanced in vivo survival of adoptively transferred DC.RheoIL12 in tumor and tumor-draining lymph nodes. The unique safety feature of DC.RheoIL12 application was emphasized in a combined treatment model with rIL-2, where profound TNF-alpha-associated toxicity could be ameliorated upon discontinuation of activating ligand administration.

Antigenic stimulation with cytochrome P450 2J expressed in mouse hepatocellular carcinoma cells regulates host anti-tumour immunity.

Cytochrome P450 2J subfamily (CYP2J) enzymes expressed in mouse hepatocellular carcinoma (HCC) cells were identified as an antigen recognized by specific CD4(+) T cells and the structure of its T cell epitope was determined by proteomics-based exploration. The major histocompatibility complex (MHC) class II binding peptides were isolated from I-A(k)/peptide complex of dendritic cells (DCs) loaded or unloaded with MIH-2 mouse HCC cells. MHC class II-binding peptides found in MIH-2-loaded DCs but not in unloaded DCs were determined by tandem mass spectrometric analysis. The peptide, consisting of amino acid 276-290 (DFIDAFLKEMTKYPE) of mouse CYP2J enzymes, was identified as an antigenic peptide presented in the context of MHC class II. Preventive treatment of mice with CYP2J peptide stimulated interferon (IFN)-gamma production of splenocytes and suppressed the growth of implanted CYP2J-positive MIH-2 cells but not CYP2J-negative murine bladder tumour cells. However, continuous treatment of MIH-2-bearing mice with CYP2J peptide significantly suppressed IFN-gamma production of splenocytes and accelerated the growth of implanted MIH-2 tumours in vivo. Increased frequencies of CD4(+)forkhead box P3 regulatory T cells and CD11b(+)Gr-1(+) myeloid suppressor cells were observed in splenocytes from the continuously immunized mice. These results indicate that antigenecity of CYP2J isoforms expressed in HCC cells activate host anti-tumour immunity at an initial stage of HCC, but suppress host anti-tumour immunity with excessive antigenic stimulation at an advanced stage.

Repeated administration of cytokines improve the ex-vivo generation of human dendritic cells.

The in vitro generation of dendritic cells (DCs) enables us to practice antitumor immune therapy. Peripheral monocytes can differentiate to DCs in the presence of granulocyte-macrophage colony-stimulating factor (GM-CSF) and interleukin 4 (IL-4) in vitro. To generate a large number of DCs, we compared the number of DCs generated from leukapheresis products to those from conventional blood samplings in healthy volunteers. The induction rates of the DCs were equal for these two blood samplings, and 10(7) DCs were obtainable from one leukapheresis product. In contrast, the number of DCs varied significantly depending on the individual (30-50% in good responders vs. less than 10% in poor responders). DCs appeared as aggregates of indented cells during culture in good responders, while large cells were floating sparsely in poor responders. Repeated administration of GM-CSF and IL-4 improved the yields of DCs and induced proliferation of autologous lymphocytes in poor responders. As a prototype of cell therapy, the generation of DCs will require a titration of differentiation processes, depending on each individual's responsiveness to cytokines.