Biomedicines (Jul 2021)

Effective Detection and Monitoring of Glioma Using [<sup>18</sup>F]FPIA PET Imaging

  • Vessela Vassileva,
  • Marta Braga,
  • Chris Barnes,
  • Justyna Przystal,
  • Ali Ashek,
  • Louis Allott,
  • Diana Brickute,
  • Joel Abrahams,
  • Keittisak Suwan,
  • Angel M. Carcaboso,
  • Amin Hajitou,
  • Eric O. Aboagye

DOI
https://doi.org/10.3390/biomedicines9070811
Journal volume & issue
Vol. 9, no. 7
p. 811

Abstract

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Background: Reprogrammed cellular metabolism is a cancer hallmark. In addition to increased glycolysis, the oxidation of acetate in the citric acid cycle is another common metabolic phenotype. We have recently developed a novel fluorine-18-labelled trimethylacetate-based radiotracer, [18F]fluoro-pivalic acid ([18F]FPIA), for imaging the transcellular flux of short-chain fatty acids, and investigated whether this radiotracer can be used for the detection of glioma growth. Methods: We evaluated the potential of [18F]FPIA PET to monitor tumor growth in orthotopic patient-derived (HSJD-GBM-001) and cell line-derived (U87, LN229) glioma xenografts, and also included [18F]FDG PET for comparison. We assessed proliferation (Ki-67) and the expression of lipid metabolism and transport proteins (CPT1, SLC22A2, SLC22A5, SLC25A20) by immunohistochemistry, along with etomoxir treatment to provide insights into [18F]FPIA uptake. Results: Longitudinal PET imaging showed gradual increase in [18F]FPIA uptake in orthotopic glioma models with disease progression (p 18F]FDG (p 18F]FPIA uptake correlated positively with Ki-67 (p p p = 0.001), and negatively with CPT1 (p p 18F]FPIA uptake, which correlated with decreased Ki-67 (p 18F]FPIA PET for the detection and longitudinal monitoring of glioma, showing a positive correlation with tumor proliferation, and suggest transcellular flux-mediated radiotracer uptake.

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