Multi-tracer and multiparametric PET imaging to detect the IDH mutation in glioma: a preclinical translational in vitro, in vivo, and ex vivo study

Alexandra Clément; Timothee Zaragori; Romain Filosa; Olga Ovdiichuk; Marine Beaumont; Charlotte Collet; Emilie Roeder; Baptiste Martin; Fatiha Maskali; Muriel Barberi-Heyob; Celso Pouget; Matthieu Doyen; Antoine Verger

doi:10.1186/s40644-022-00454-6

Multi-tracer and multiparametric PET imaging to detect the IDH mutation in glioma: a preclinical translational in vitro, in vivo, and ex vivo study

Cancer Imaging. 2022 Mar 18;22(1):16. doi: 10.1186/s40644-022-00454-6.

Authors

Alexandra Clément^{1

2}, Timothee Zaragori^{3

4}, Romain Filosa³, Olga Ovdiichuk³, Marine Beaumont^{4

5}, Charlotte Collet^{3

4}, Emilie Roeder³, Baptiste Martin³, Fatiha Maskali³, Muriel Barberi-Heyob⁶, Celso Pouget⁷, Matthieu Doyen^{3

4}, Antoine Verger^{3

4

8}

Affiliations

¹ Nancyclotep Molecular and Experimental Imaging Platform, CHRU-Nancy, 05 rue du Morvan, 54500, Vandoeuvre-Les-Nancy, France. alexandra.clement5@hotmail.fr.
² Lorraine University, INSERM, IADI UMR 1254, Nancy, France. alexandra.clement5@hotmail.fr.
³ Nancyclotep Molecular and Experimental Imaging Platform, CHRU-Nancy, 05 rue du Morvan, 54500, Vandoeuvre-Les-Nancy, France.
⁴ Lorraine University, INSERM, IADI UMR 1254, Nancy, France.
⁵ Lorraine University, CIC-IT UMR 1433, CHRU-Nancy, Nancy, France.
⁶ Lorraine University, CNRS, CRAN UMR 7039, Nancy, France.
⁷ Department of Pathology, CHRU-Nancy, Nancy, France.
⁸ Department of Nuclear Medicine, CHRU-Nancy, Nancy, France.

Abstract

Background: This translational study explores multi-tracer PET imaging for the non-invasive detection of the IDH1 mutation which is a positive prognostic factor in glioma.

Methods: U87 human high-grade glioma (HGG) isogenic cell lines with or without the IDH1 mutation (CRISP/Cas9 method) were stereotactically grafted into rat brains, and examined, in vitro, in vivo and ex vivo. PET imaging sessions, with radiotracers specific for glycolytic metabolism ([¹⁸F]FDG), amino acid metabolism ([¹⁸F]FDopa), and inflammation ([¹⁸F]DPA-714), were performed sequentially during 3-4 days. The in vitro radiotracer uptake was expressed as percent per million cells. For each radiotracer examined in vivo, static analyses included the maximal and mean tumor-to-background ratio (TBR_max and TBR_mean) and metabolic tumor volume (MTV). Dynamic analyses included the distribution volume ratio (DVR) and the relative residence time (RRT) extracted from a reference Logan model. Ex vivo analyses consisted of immunological analyses.

Results: In vitro, IDH1+ cells (i.e. cells expressing the IDH1 mutation) showed lower levels of [¹⁸F]DPA-714 uptake compared to IDH1- cells (p < 0.01). These results were confirmed in vivo with lower [¹⁸F]DPA-714 uptake in IDH+ tumors (3.90 versus 5.52 for TBR_max, p = 0.03). Different values of [¹⁸F]DPA-714 and [¹⁸F] FDopa RRT (respectively 11.07 versus 22.33 and 2.69 versus - 1.81 for IDH+ and IDH- tumors, p < 0.02) were also observed between the two types of tumors. RRT [¹⁸F]DPA-714 provided the best diagnostic performance to discriminate between the two cell lines (AUC of 100%, p < 0.01). Immuno-histological analyses revealed lower expression of Iba-1 and TSPO antibodies in IDH1+ tumors.

Conclusions: [18F]DPA-714 and [18F] FDopa both correlate with the presence of the IDH1 mutation in HGG. These radiotracers are therefore good candidates for translational studies investigating their clinical applications in patients.

Keywords: Gliomas; IDH mutation; PET; [18F]DPA-714.

MeSH terms

Animals
Fluorodeoxyglucose F18
Glioma* / diagnostic imaging
Glioma* / genetics
Glioma* / metabolism
Humans
Mutation
Positron-Emission Tomography / methods
Rats
Receptors, GABA / genetics

Substances

Receptors, GABA
TSPO protein, human
Fluorodeoxyglucose F18