Brain Sciences (Oct 2022)

Multiparametric Longitudinal Profiling of RCAS-tva-Induced PDGFB-Driven Experimental Glioma

  • Hannes Becker,
  • Salvador Castaneda-Vega,
  • Kristin Patzwaldt,
  • Justyna M. Przystal,
  • Bianca Walter,
  • Filippo C. Michelotti,
  • Denis Canjuga,
  • Marcos Tatagiba,
  • Bernd Pichler,
  • Susanne C. Beck,
  • Eric C. Holland,
  • Christian la Fougère,
  • Ghazaleh Tabatabai

DOI
https://doi.org/10.3390/brainsci12111426
Journal volume & issue
Vol. 12, no. 11
p. 1426

Abstract

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Glioblastomas are incurable primary brain tumors harboring a heterogeneous landscape of genetic and metabolic alterations. Longitudinal imaging by MRI and [18F]FET-PET measurements enable us to visualize the features of evolving tumors in a dynamic manner. Yet, close-meshed longitudinal imaging time points for characterizing temporal and spatial metabolic alterations during tumor evolution in patients is not feasible because patients usually present with already established tumors. The replication-competent avian sarcoma-leukosis virus (RCAS)/tumor virus receptor-A (tva) system is a powerful preclinical glioma model offering a high grade of spatial and temporal control of somatic gene delivery in vivo. Consequently, here, we aimed at using MRI and [18F]FET-PET to identify typical neuroimaging characteristics of the platelet-derived growth factor B (PDGFB)-driven glioma model using the RCAS-tva system. Our study showed that this preclinical glioma model displays MRI and [18F]FET-PET features that highly resemble the corresponding established human disease, emphasizing the high translational relevance of this experimental model. Furthermore, our investigations unravel exponential growth dynamics and a model-specific tumor microenvironment, as assessed by histology and immunochemistry. Taken together, our study provides further insights into this preclinical model and advocates for the imaging-stratified design of preclinical therapeutic interventions.

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