Frontiers in Veterinary Science (Nov 2023)

Evaluation of in vitro intrinsic radiosensitivity and characterization of five canine high-grade glioma cell lines

  • Benjamin Cartiaux,
  • Benjamin Cartiaux,
  • Alexandra Deviers,
  • Caroline Delmas,
  • Caroline Delmas,
  • Jérôme Abadie,
  • Martí Pumarola Battle,
  • Elizabeth Cohen-Jonathan Moyal,
  • Elizabeth Cohen-Jonathan Moyal,
  • Giovanni Mogicato

DOI
https://doi.org/10.3389/fvets.2023.1253074
Journal volume & issue
Vol. 10

Abstract

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Glioma is the most common primary brain tumor in dogs and predominantly affects brachycephalic breeds. Diagnosis relies on CT or MRI imaging, and the proposed treatments include surgical resection, chemotherapy, and radiotherapy depending on the tumor’s location. Canine glioma from domestic dogs could be used as a more powerful model to study radiotherapy for human glioma than the murine model. Indeed, (i) contrary to mice, immunocompetent dogs develop spontaneous glioma, (ii) the canine brain structure is closer to human than mice, and (iii) domestic dogs are exposed to the same environmental factors than humans. Moreover, imaging techniques and radiation therapy used in human medicine can be applied to dogs, facilitating the direct transposition of results. The objective of this study is to fully characterize 5 canine glioma cell lines and to evaluate their intrinsic radiosensitivity. Canine cell lines present numerous analogies between the data obtained during this study on different glioma cell lines in dogs. Cell morphology is identical, such as doubling time, clonality test and karyotype. Immunohistochemical study of surface proteins, directly on cell lines and after stereotaxic injection in mice also reveals close similarity. Radiosensitivity profile of canine glial cells present high profile of radioresistance.

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