Impact of Endothelial 18-kDa Translocator Protein on the Quantification of 18 F-DPA-714

F-DPA-714 is a second-generation tracer for PET imaging of the 18-kDa translocator protein (TSPO), a marker of neuroinflammation. Analysis and interpretation of TSPO PET are challenging, especially because of the basal expression of TSPO. The aim of this study was to evaluate a compartmental model t...

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Veröffentlicht in:Journal of Nuclear Medicine 2018-02, Vol.59 (2), p.307-314
Hauptverfasser: Wimberley, Catriona, Lavisse, Sonia, Brulon, Vincent, Peyronneau, Marie-Anne, Leroy, Claire, Bodini, Benedetta, Remy, Philippe, Stankoff, Bruno, Buvat, Irène, Bottlaender, Michel
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Sprache:eng
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Zusammenfassung:F-DPA-714 is a second-generation tracer for PET imaging of the 18-kDa translocator protein (TSPO), a marker of neuroinflammation. Analysis and interpretation of TSPO PET are challenging, especially because of the basal expression of TSPO. The aim of this study was to evaluate a compartmental model that accounts for the effect of endothelial TSPO binding on the quantification of F-DPA-714 PET scans from a cohort of healthy subjects. Fifteen healthy subjects (9 high-affinity binders and 6 mixed-affinity binders) underwent F-DPA-714 PET scans with arterial blood sampling and metabolite analysis. The kinetic parameters were quantified using a 2-tissue compartmental model (2TC) as well as a 2TC with an extra, irreversible, compartment for endothelial binding (2TC-1K). These regional parameters and messenger RNA (mRNA) expression specific to endothelial cells were correlated with regional TSPO mRNA expression. The 2TC-1K model was more appropriate than the 2TC for 81% of fits. The total volume of distribution was significantly reduced by 21% ± 12% across all regions with the 2TC-1K, compared with the 2TC. The endothelial binding parameter varied highly across brain regions. strongly and significantly correlated with all 3 probes extracted for TSPO mRNA expression ( = 0.80, = 0.79, and = 0.90), but no correlation was seen with the other binding parameters from the 2TC-1K. For the 2TC, there was a lower but significant correlation between the volume of distribution and one of the TSPO mRNA probes ( = 0.65). A strong, significant correlation was seen between mRNA for TSPO and genes specific to endothelial cells. Accounting for endothelial TSPO in the kinetic model improved the fit of PET data. The high correlation between and TSPO mRNA suggests that the 2TC-1K model reveals more biologic information about the regional density of TSPO than the 2TC. The correlation between TSPO and endothelial cell mRNA supports the relationship between the regional variation of and endothelial TSPO. These results can improve the estimation of binding parameter estimates from F-DPA-714 PET, especially in diseases that induce vascular change.
ISSN:0161-5505
1535-5667
2159-662X
DOI:10.2967/jnumed.117.195396