Frontiers in Oncology (Feb 2020)

From the Clinic to the Bench and Back Again in One Dog Year: How a Cross-Species Pipeline to Identify New Treatments for Sarcoma Illuminates the Path Forward in Precision Medicine

  • Sneha R. Rao,
  • Jason A. Somarelli,
  • Jason A. Somarelli,
  • Erdem Altunel,
  • Laura E. Selmic,
  • Mark Byrum,
  • Maya U. Sheth,
  • Serene Cheng,
  • Kathryn E. Ware,
  • So Young Kim,
  • Joseph A. Prinz,
  • Nicolas Devos,
  • David L. Corcoran,
  • Arthur Moseley,
  • Erik Soderblom,
  • S. David Hsu,
  • S. David Hsu,
  • William C. Eward,
  • William C. Eward

DOI
https://doi.org/10.3389/fonc.2020.00117
Journal volume & issue
Vol. 10

Abstract

Read online

Cancer drug discovery is an inefficient process, with more than 90% of newly-discovered therapies failing to gain regulatory approval. Patient-derived models of cancer offer a promising new approach to identify new treatments; however, for rare cancers, such as sarcomas, access to patient samples is limited, which precludes development of patient-derived models. To address the limited access to patient samples, we have turned to pet dogs with naturally-occurring sarcomas. Although sarcomas make up <1% of all human cancers, sarcomas represent 15% of cancers in dogs. Because dogs have similar immune systems, an accelerated pace of cancer progression, and a shared environment with humans, studying pet dogs with cancer is ideal for bridging gaps between mouse models and human cancers. Here, we present our cross-species personalized medicine pipeline to identify new therapies for sarcomas. We explore this process through the focused study of a pet dog, Teddy, who presented with six synchronous leiomyosarcomas. Using our pipeline we identified proteasome inhibitors as a potential therapy for Teddy. Teddy was treated with bortezomib and showed a varied response across tumors. Whole exome sequencing revealed substantial genetic heterogeneity across Teddy's recurrent tumors and metastases, suggesting that intra-patient heterogeneity and tumoral adaptation were responsible for the heterogeneous clinical response. Ubiquitin proteomics coupled with exome sequencing revealed multiple candidate driver mutations in proteins related to the proteasome pathway. Together, our results demonstrate how the comparative study of canine sarcomas offers important insights into the development of personalized medicine approaches that can lead to new treatments for sarcomas in both humans and canines.

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