Transplantation of human or rodent tumors into cyclosporine-treated mice: a feasible model for studies of tumor biology and chemotherapy

Total growth of transplanted human or rodent tumors in the subrenal capsule of mice was much improved by treatment with cyclosporine (CSA, cyclosporin A). Tumor size increased rapidly between days 6 and 12 after implantation, CSA injected on days 1-5 or 2-8 prevented tumor regression. In contrast, immunologic regression occurred after 6 days in absence of the drug. Tumor growth was comparable in CSA-treated mice, athymic nude mice with human tumors, or normal mice with syngeneic rodent tumors. Studies with rodent tumors in syngeneic mice showed that the CSA treatments had no antitumor effect. Inflammatory infiltration was seen on days 6-12 after tumor implantation into control mice. Immunoperoxidase staining showed murine T cells to be prominent in the infiltrate. In contrast, tumors in CSA-treated mice contained minimal inflammatory infiltrate even 12 days after implantation. Allogeneic tumors in CSA-treated mice caused neovascularization, metastases, and local invasion into the kidney. cis-Diamminedichloroplatinum showed highly significant activity against human tumors in CSA-treated mice during the period 6-10 days after tumor implantation but showed no statistically significant antitumor activity 0-6 days after implantation in mice not treated with CSA. We suggest that in CSA-treated mice the subrenal capsule assay for tumor growth provides a rapid, economical model for investigations in vivo of mouse or human tumor biology, for drug screening with a standard tumor, or for determination of optimal treatment of particular human tumors.