To target disseminated tumors in vivo, transgenes [beta-galactosidase gene, green fluorescence protein (GFP) gene, herpes simplex virus thymidine kinase (HSV-TK)] were conjugated to transferrin (Tf) by a biotin-streptavidin bridging, which is stoichiometrically controllable, and Tf receptor (Tf-R) affinity chromatography, which selects Tf conjugates with intact receptor bindings sites from reacting with the linker. Tf-beta-galactosidase plasmid conjugate thus constructed was specifically transfected to human erythroleukemia cells (K562) via Tf-R without the aid of any lysosomotropic agents. The transfection efficiency of the conjugate was superior to those of lipofection (1% staining) and retroviral vector (5%) and slightly lower than that of adenovirus (70%). The high level of expression with our conjugate was confirmed using other tumor cells (M7609, TMK-1) whereas in normal diploid cells (HEL), which express low levels of Tf-R, expression was negligible. When GFP gene conjugates were systemically administered through the tail vein to nude mice subcutaneously inoculated with tumor, expression of GFP mRNA was found almost exclusively in tumors and to a much lesser extent in muscles, whereas GFP revealed by fluorescence microscopy was detected only in the former. To exploit a therapeutic applicability of this method, suicide gene therapy using Tf-HSV-TK gene conjugate for massively metastasized k562 tumors in severe combined immune-deficient mice was conducted, and a marked prolongation of survival and significant reduction of tumor burden were confirmed. Thus, this method could also be used for gene therapy to disseminated tumors.
The therapeutic effect of TNF gene-transduced mouse fibrosarcoma cells (Meth-A: C5) on pre-inoculated parental cells (Meth-A: M0) was studied. Subcutaneous (s.c.) transplantation of M0 cells into one flank of syngeneic BALB/c mice was followed by s.c. injection of irradiated MO or C5 into the opposite flank 1 week later. The initial M0 tumor (T-MO) completely regressed in C5-vaccinated mice, whereas in M0-vaccinated mice continuous growth of T-M0 was observed. When a similar experiment was carried out in SCID mice, no regression of T-MO was observed, suggesting that the tumor regression in BALB/c mice was not due to direct anti-tumor activity of TNF secreted from C5, but to systemic immunity. Regression of the rechallenged M0 tumor was observed in mice which had shown T-MO regression by C5 vaccination, but rechallenged Colon 26 cells (syngeneic to BALB/c mice) continued to grow, indicating a specific immunity to Meth-A cells). The systemic immunity evoked in C5-vaccinated mice was directly demonstrated by enhanced killer activities of LAK and CTL with a proliferation of T-cell population in their splenocytes. Abrogation of the therapeutic effect of C5 vaccination with anti-Thy 1 and anti-Lyt 2 also demonstrates the involvement of cellular immunity in tumor regression.
Syngeneic BALB/c mice bearing methylcholanthrene‐induced fibrosarcoma (Meth‐A) cells transduced with a tumor necrosis factor (TNF) gene showed a longer life span and tumor regression as compared with mice carrying TNF‐non‐producing Meth‐A cells. To elucidate the mechanism of the reduced tumorigenicity of TNF‐producing Meth‐A, we compared systemic immune responses between mice bearing high TNF producer (C5) and unmodified Meth‐A cells (M0). The results indicated that the cytotoxic activity of lymphokine‐activated killer cells (LAK) induced from spleen cells of mice bearing C5 was higher against both M0 and C5 than that of LAK from mice bearing M0. Also, C5 was more sensitive to LAK induced from spleen cells of C5‐ and M0‐ bearing mice than M0. We also found that cytotoxic T lymphocyte from spleen cells of mice transplanted with C5 was more cytotoxic to M0 than that from mice with M0. In addition, the population of Lyt2 (CD8)‐positive T cells was higher in freshly isolated spleen cells of mice transplanted with C5 than from mice with M0. Finally, we observed a higher expression of MHC class 1 antigen on C5 than on M0. These observations suggest that the augmented host systemic immunity in mice carrying TNF gene‐modified Meth‐A cells is one of the mechanisms of the reduced tumorigenicity of C5 and that the increased systemic immunity can be ascribed to the increased immunogenicity of the tumor cells. Thus, the use of TNF gene‐modified tumor cells as vaccines appears to be promising for therapeutic and/or prophylactic application.
We characterized tumor-infiltrating lymphocytes (TIL) from ascites of patients with ovarian or pancreatic cancer in which the human tumor necrosis factor (TNF) gene was successfully transduced with retrovirus vector. The TNF-gene-transduced TIL (TNF-TIL) from these patients showed a higher level of TNF production and higher cytotoxic activity against K562 and Daudi cells than did neomycin-phosphotransferase-gene-transduced TIL (neo-TIL). Of these TIL preparations, only that from pancreatic cancer was further characterized since it was collected in a relatively large amount. In spite of the fact that the autologous tumor cells showed resistance to soluble TNF, the TNF-TIL clearly demonstrated enhanced cytotoxicity against them as compared with neo-TIL. The enhanced cytotoxicity was ascribed to autocrine effects of secreted TNF on TIL, which included augmentation of adhesion molecule (CD2 and CD11a) and interleukin-2 receptor expression, and elevation of production of interferon gamma, lymphotoxin and granulocyte/macrophage-colony-stimulating factor and its paracrine effect on target cells to facilitate them to be more susceptible to TIL.
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