Abstract 6034: Characterization of a novel syngeneic cSCC mouse model to advance immunotherapy treatments

Abstract

Abstract Cutaneous Squamous Cell Carcinoma (cSCC) is the second most common malignancy diagnosed in Caucasians with an incidence of about one million cases per year. TP53 and p16 are the most common mutated genes in cSCC. Previous studies of cSCC have shown that patients with both p53 and p16 mutations have lower survival rates. There are currently no syngeneic mouse preclinical models to accelerate the efficacy of immunotherapy combinations to treat cSCC. Our laboratory has generated several genetically engineered mouse models (GEMMs) containing tissue-specific p53 and p16 gene mutations. Recently, we have immortalized three murine cSCC cell lines (cSCC-5690, cSCC-8006, and cSCC-8271) derived from spontaneous skin tumors from GEMMs. Therefore, we hypothesized that the double mutant cell line cSCC-5690 enhances cell survival, tumor aggressiveness, and has lower sensitivity to antibody immunotherapy. Protein and RNA expression of the cell lines were validated by western blotting and qRT-PCR assays. Sphere and soft agar assays were used to evaluate the stem cell population and tumorigenicity of the cell lines. Then, we examined the chemosensitivity with cisplatin through clonogenic assays. To further study the tumorigenicity of cells, we evaluated in vivo tumor growth on C57BL/6J immunocompetent mice by injecting subcutaneously the tumor cell lines. The three cell lines expressed different levels of keratin 14 (K14), but cSCC 5690 and 8006 expressed high levels of genes related to oncogenic pathways as well as mesenchymal markers. The cell line cSCC-5690 expressing mutant p53 R172H with p16 gene deletion, showed an enhanced sphere, and colony tumor formation and both tumorigenic cell lines (cSCC-5690, 8006) showed different sensitivities to cisplatin treatment. A higher tumor growth rate was observed with cSCC-5690 compared to cSCC-8006, while cSCC-8271 showed no tumor growth. Immunohistochemistry studies demonstrated that both cSCC-5690 and 8006 tumors expressed vimentin but only cSCC-5690 expressed K14. The most aggressive syngeneic tumor model (cSCC-5690) was used to evaluate the anti-tumor efficiency of anti-PD1, anti-CD47 antibodies, and STING-agonist. Preliminary results revealed a significant tumor response only to STING agonist (c-di-GMP) which activates the innate and adaptive immune response. Therefore, we were able to characterize all three cell lines and established a new mouse model of cSCC as a relevant platform for immunotherapy studies. Citation Format: Alanis Enid Rodriguez Rosario, Roberto Rangel, Jeffrey Myers. Characterization of a novel syngeneic cSCC mouse model to advance immunotherapy treatments [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2022; 2022 Apr 8-13. Philadelphia (PA): AACR; Cancer Res 2022;82(12_Suppl):Abstract nr 6034.