A PoleP286R mouse model of endometrial cancer recapitulates high mutational burden and immunotherapy response
Hao-Dong Li, Changzheng Lu, He Zhang, Qing Hu, Junqiu Zhang, Ileana C. Cuevas, Subhransu S. Sahoo, Mitzi Aguilar, Elizabeth G. Maurais, Shanrong Zhang, Xiaojing Wang, Esra A. Akbay, Guo-Min Li, Bo Li, Prasad Koduru, Peter Ly, Yang-Xin Fu, Diego H. Castrillon
Hao-Dong Li, Changzheng Lu, He Zhang, Qing Hu, Junqiu Zhang, Ileana C. Cuevas, Subhransu S. Sahoo, Mitzi Aguilar, Elizabeth G. Maurais, Shanrong Zhang, Xiaojing Wang, Esra A. Akbay, Guo-Min Li, Bo Li, Prasad Koduru, Peter Ly, Yang-Xin Fu, Diego H. Castrillon
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Research Article Genetics Oncology

A PoleP286R mouse model of endometrial cancer recapitulates high mutational burden and immunotherapy response

Abstract

Cancer is instigated by mutator phenotypes, including deficient mismatch repair and p53-associated chromosomal instability. More recently, a distinct class of cancers was identified with unusually high mutational loads due to heterozygous amino acid substitutions (most commonly P286R) in the proofreading domain of DNA polymerase ε, the leading strand replicase encoded by POLE. Immunotherapy has revolutionized cancer treatment, but new model systems are needed to recapitulate high mutational burdens characterizing human cancers and permit study of mechanisms underlying clinical responses. Here, we show that activation of a conditional LSL-PoleP286R allele in endometrium is sufficient to elicit in all animals endometrial cancers closely resembling their human counterparts, including very high mutational burden. Diverse investigations uncovered potentially novel aspects of Pole-driven tumorigenesis, including secondary p53 mutations associated with tetraploidy, and cooperation with defective mismatch repair through inactivation of Msh2. Most significantly, there were robust antitumor immune responses with increased T cell infiltrates, accelerated tumor growth following T cell depletion, and unfailing clinical regression following immune checkpoint therapy. This model predicts that human POLE-driven cancers will prove consistently responsive to immune checkpoint blockade. Furthermore, this is a robust and efficient approach to recapitulate in mice the high mutational burdens and immune responses characterizing human cancers.

Authors

Hao-Dong Li, Changzheng Lu, He Zhang, Qing Hu, Junqiu Zhang, Ileana C. Cuevas, Subhransu S. Sahoo, Mitzi Aguilar, Elizabeth G. Maurais, Shanrong Zhang, Xiaojing Wang, Esra A. Akbay, Guo-Min Li, Bo Li, Prasad Koduru, Peter Ly, Yang-Xin Fu, Diego H. Castrillon

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Figure 7

PoleP286R/+ and PoleP286R/+Msh2–/– tumors are highly responsive to immune checkpoint blockade.

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PoleP286R/+ and PoleP286R/+Msh2–/– tumors are highly responsive to immu...
(A) Schematic summarizing combined αPDL1/CTLA-4 treatment of syngeneically engrafted F1 hybrid mice. (B) Subcutaneous tumor graft measurements per Vernier caliper twice a week; n = 8 grafts for vehicle and treated, P value per 2-way ANOVA grouped analysis. (C) Double-labeling of grafts by IHC against CD8 to highlight T cells and pan-cytokeratin (CK) to highlight tumor cells. (D) PDL1 and CTLA-4 expression in lymphocytes in representative PoleP286R/+ tumors and schematic of αPDL1/CTLA-4 treatment of live mice. (E) Survival analysis following treatment of PoleP286R/+ and PoleP286R/+Msh2–/– tumors, P value per log-rank test. (F) Z-stack MRI of PoleP286R/+ mouse uterus before treatment and 2 weeks posttreatment. Scale bars: 0.5 cm. (G) Tumor response per MRI Z-stacks; n = 4 matched (pre/post) pairs, P value by paired t test. (H) IHC of CD8 and CK highlights increased numbers of tumor-infiltrating lymphocytes within malignant gland epithelium. (I) Distribution of the 50 most frequent TCRs in peripheral blood and tumors of 129 × FVB F1 engrafted mice; n = 4 per group; x axis, frequency.