Mesothelioma Mouse Models with Mixed Genomic States of Chromosome and Microsatellite Instability

Yurong Song, Shaneen S. Baxter, Lisheng Dai, Chelsea Sanders, Sandra Burkett, Ryan N. Baugher, Stephanie D. Mellott, Todd B. Young, Heidi E. Lawhorn, Simone Difilippantonio, Baktiar Karim, Yuwaraj Kadariya, Ligia A. Pinto, Joseph R. Testa, Robert H. Shoemaker

Research output: Contribution to journalArticlepeer-review

4 Scopus citations

Abstract

Malignant mesothelioma (MMe) is a rare malignancy originating from the linings of the pleural, peritoneal and pericardial cavities. The best-defined risk factor is exposure to carcinogenic mineral fibers (e.g., asbestos). Genomic studies have revealed that the most frequent genetic lesions in human MMe are mutations in tumor suppressor genes. Several genetically engineered mouse models have been generated by introducing the same genetic lesions found in human MMe. How-ever, most of these models require specialized breeding facilities and long-term exposure of mice to asbestos for MMe development. Thus, an alternative model with high tumor penetrance without asbestos is urgently needed. We characterized an orthotopic model using MMe cells derived from Cdkn2a+/−;Nf2+/− mice chronically injected with asbestos. These MMe cells were tumorigenic upon intraperitoneal injection. Moreover, MMe cells showed mixed chromosome and microsatellite insta-bility, supporting the notion that genomic instability is relevant in MMe pathogenesis. In addition, microsatellite markers were detectable in the plasma of tumor-bearing mice, indicating a potential use for early cancer detection and monitoring the effects of interventions. This orthotopic model with rapid development of MMe without asbestos exposure represents genomic instability and specific molecular targets for therapeutic or preventive interventions to enable preclinical proof of concept for the intervention in an immunocompetent setting.

Original languageEnglish
Article number3108
JournalCancers
Volume14
Issue number13
DOIs
StatePublished - May 24 2022

Keywords

  • biomarker
  • cell line
  • chromosome instability
  • genomic instability
  • immunotherapy
  • mesothelioma
  • microsatellite instability
  • mouse model

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  • Cell Culture Facility

    Campbell, PhD, K. S. (Director) & Kwok, PhD, T. (Manager)

    Equipment/facility: Facility

  • Laboratory Animal Facility

    Patterson, MLAS, CMAR, RLATg, ILAM, K. S. (Director), Pimble, AS, A. T. (Manager) & Tuohy VMD, K. (Staff)

    Equipment/facility: Facility

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