Abstract
Abstract A once-weekly optimized dosing regimen of erlotinib (ERL) in the polyposis in rat colon (Pirc) model [1] was a reliable predictor of antitumor efficacy in familial adenomatous polyposis (FAP) patients [2]. Pirc rats are increasingly used as a translational tool for FAP studies. Based on transcriptomic data from FAP patients receiving ERL plus sulindac (SUL) vs. placebo [3], we determined the timing of changes in interferon-γ signaling in Pirc adenomas, while performing additional dose titration. In rats that were given ERL administered at 5 mg per kilogram of body weight through oral gavage (two times a week) and that received a diet containing 125 parts per million of SUL, a regimen referred to as SUL125+ERL5x2, significant suppression of tumor growth was observed. This combination represented half of the standard of care SUL dose and about one-quarter of the ERL dose in FAP patients. In adenomas collected after one year of treatment from SUL125+ERL5x2 treated rats, the expression of genes related to the major histocompatibility complex (MHC) class I (β2m, Cnx, Psmb8 and Tap1) and MHC class II (RT1-A2, Cd74, RT-1Bb, Cd74, and Ciita) was increased, compared to vehicle controls, excluding a subset of adenomas that remained resistant. Through the use of multiplex mass cytometry (CyTOF), an increase in tumor-infiltrating CD4+ T cells was observed in adenomas from the SUL125+ERL5x2 treatment group. Administration of single or combined agents increased CD68+ cells and reduced the presence of Foxp3+ and Arg1+ cells in Pirc adenomas. The natural history of adenomatous colon polyps indicated an increase in MHC gene expression as tumors increased in size; however, this trend reversed markedly in fully occluding lesions. Additionally, expression of MHC-related factors increased in Pirc colon adenoma and murine colon carcinoma cells treated with ERL±SUL, resulting in enhanced CD8+ T-cell activation and IL-2 secretion. In conclusion, treatment with intermittent low doses of ERL±SUL increased MHC gene expression and induced changes in the immune cell component in the tumor microenvironment of Pirc rat adenomas. A subset of non-responsive adenomas could benefit from additional immunopreventive approaches, with implications for possible clinical applications in both hereditary and sporadic colorectal cancer.
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