Previous studies of naturally occurring mouse papillomavirus (PV) MmuPV1-induced tumors in B6.Cg-Foxn1 mice suggest that T cell deficiency is necessary and sufficient for the development of such tumors. To confirm this, MmuPV1-induced tumors were transplanted from T cell-deficient mice into immunocompetent congenic mice. Consequently, the tumors regressed and eventually disappeared. The elimination of MmuPV1-infected skin/tumors in immunocompetent mice was consistent with the induction of antitumor T cell immunity. This was confirmed by adoptive cell experiments using hyperimmune splenocytes collected from graft-recipient mice. In the present study, such splenocytes were injected into T cell-deficient mice infected with MmuPV1, and they eliminated both early-stage and fully formed tumors. We clearly show that anti-tumor T cell immunity activated during tumor regression in immunocompetent mice effectively eliminates tumors developing in T cell-deficient congenic mice. The results corroborate the notion that PV-induced tumors are strongly linked to the immune status of the host, and that PV antigens are major anti-tumor antigens. Successful anti-PV T cell responses should, therefore, lead to effective anti-tumor immune therapy in human PV-infected patients.
Infection by mouse papillomavirus (PV), MmuPV1, of T cell-deficient, B6.Cg-Foxn1nu/J nude mice revealed that four, distinct squamous papilloma phenotypes developed simultaneously after infection of experimental mice. Papillomas appeared on the muzzle, vagina, and tail at or about day 42 days post-inoculation. The dorsal skin developed papillomas and hair follicle tumors (trichoblastomas) as early as 26 days after infection. When this aggressive tumor was transplanted into normal congenic strains, the transplant immediately regressed while the transplanted tumor into B6.Cg-Foxn1nu/J continued to grow. This result suggested that T-cell deficiency is critical to tumor formation. Passive transfer of hyperimmune sera from normal congenic mice immunized with MmuPV1 virus-like particles (VLPs) to T cell-deficient strains of mice prevented infection by virions of experimental mice. A cell adoption study showed that activated CD8+ populations collected during the regression process of MmuPV1 tumor explants efficiently eliminated both growing and established tumors in the model. Consequently, this study will provide an efficient immunotherapeutic strategy that can be employed to HPV-positive patients, who are at a risk of cancer development.
Citation Format: Joongho Joh, Shinje Ghim, Paula M. Chilton, Jino Park, Sarah A. Wilcher, Mary L. Proctor, Alfred B. Jenson. Antitumor immune response passively prevents and eliminates skin tumors on the mouse model of human papillomavirus cancers. [abstract]. In: Proceedings of the 107th Annual Meeting of the American Association for Cancer Research; 2016 Apr 16-20; New Orleans, LA. Philadelphia (PA): AACR; Cancer Res 2016;76(14 Suppl):Abstract nr LB-297.
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