Abstract
Abstract Pancreatic ductal adenocarcinoma (PDAC) is a highly lethal malignancy with a proclivity for early metastasis. Resection remains the only chance for long term survival though most patients die from metastatic recurrence. While most patients recur within the first two years, many develop recurrence much later indicating they harbor dormant disseminated tumor cells (dDTCs). Currently there are no murine models which recapitulate this disease pattern and as a result pancreatic cancer dormancy is poorly understood. We sought to better understand PDAC dormancy using a novel murine model of human pancreatic cancer from which we investigate the genetic and molecular contributions to dormancy. A model of resected PDAC was developed using murine PDAC cells expressing luciferase/mCherry orthotopically implanted into FVB hosts. Primary tumors are resected after 4 weeks and mice followed for recurrence. dDTCs’ are harvested from the livers of mice without evidence of recurrence by fluorescence activated cell sorting (FACS) and subjected to transcriptomic profiling using single cell RNA sequencing. Dec2’s contribution to dormancy was evaluated by overexpression and knockout using CRISPR. Overall survival in the mouse model mirrored 41,552 stage I, II PDAC patients from the National Cancer Database with similar frequency and location of recurrence. One third of mice exhibited latent recurrence with median survival of 568 days before succumbing to recurrence. These mice were used to study dDTCs. Transcriptomic profiling of FACS sorted dDTCs revealed a distinct transcriptome from primary tumors and early recurrences, indicating cell plasticity. dDTCs exhibited decreased proliferation markers and upregulated genes involved in immune modulation, cell stemness, linoleic acid (LA) metabolism, and Dec2. dDTCs were resistant to chemotherapy. An in vitro model of dormancy was constructed in which LA treatment inhibited cell proliferation and increased Dec2. Dec2 overexpression resulted in cell quiescence, and knockout increased apoptosis with LA exposure. Dec2-KO cells implanted in the murine model dramatically improved survival compared to Dec-WT cells (Dec2-WT median survival 30 days, Dec2-KO median survival was not reached, p=0.013). Livers of mice in the resection model where Dec2-KO cells were used had decreased dDTC burden with fewer mice showing detectable luciferase gDNA (p<0.01) indicating that loss of Dec2 reduced survival of dDTC’s. This is the first murine model of pancreatic cancer dormancy that recapitulates outcomes of resected PDAC patients. These studies reveal pancreatic cancer dormancy is characterized by a distinct, plastic cellular state characterized by chemotherapy resistance. Dec2 appears required for dormancy, its absence leads to disseminated tumor cell apoptosis. This suggests Dec2 may be a therapeutic target in pancreatic cancer dormancy. Citation Format: Anthony S. Casabianca, Chris Harris, Crissy Dudgeon, Darren R. Carpizo. Dec2, a circadian rhythm gene is necessary for disseminated tumor cell survival in a novel murine model of pancreatic cancer dormancy [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 916.
Published Version
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