Abstract
Abstract INTRODUCTION: The focus of this work is to develop new mouse models for metastatic lung cancer. Lung cancer is the leading cause of cancer deaths worldwide and greater than 90% of human cancer deaths are due to metastasis. Metastatic disease in most existing mouse models of lung cancer is typically sporadic and often requires aging mice for several months. These factors limit the usefulness of mouse models for basic and pre-clinical research aimed at effective treatment of metastatic disease. METHODS AND RESULTS: We have developed a new mouse model of lung cancer and are in the process of developing two additional models. In the first model, we added mutations in Dicer1, an RNAse III enzyme within the microRNA (miRNA) biosynthesis pathway to a mouse model of Kras-driven pulmonary adenocarcinoma. When we combined conditional expression of an oncogenic allele of Kras (KrasG12D), deletion of both alleles of Trp53 and one allele of Dicer1 in Club cells with expression of truncated Dicer1 in alveolar type II cells, we generated mice with metastatic pulmonary adenocarcinoma. In 30% of these mice, metastatic tumors were observed in the lymph nodes within 11 weeks of tumor induction. In a second mouse model, we switched the cell types expressing the various mutations to determine the effects of cell of origin on tumor progression and metastasis. Our preliminary results suggest that adenocarcinoma develops even faster when KrasG12D is expressed and Trp53 and one allele of Dicer1 are deleted in alveolar type II cells. Finally, based on an analysis of human lung cancer genomics data from TCGA, we generated a mouse model with mutations in Zfhx4 and are crossing these mice with our models that express oncogenic KrasG12D, delete expression of Trp53 and one allele of Dicer1 and truncate the second allele of Dicer1 to determine the effects of adding Zfhx4 mutations on progression and metastasis of pulmonary adenocarcinoma. CONCLUSIONS: Through cell type specific truncation/deletion of Dicer1 we have generated new mouse models that rapidly develop pulmonary adenocarcinomas and metastatic disease. These models have potential for both understanding the basic processes of metastasis and for pre-clinical studies aimed at preventing and/or treating metastatic lung cancer. Citation Format: Julie Wells, Richard S. Maser, Teresa McGee, Wendy Memishian, Rosalinda Doty, Carol J. Bult. Developing new mouse models of metastatic lung cancer [abstract]. In: Proceedings of the Annual Meeting of the American Association for Cancer Research 2020; 2020 Apr 27-28 and Jun 22-24. Philadelphia (PA): AACR; Cancer Res 2020;80(16 Suppl):Abstract nr 1617.
Published Version
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