@article {Bauer1181, author = {Martin Bauer and Rudolf Karch and Markus Zeitlinger and Johann Stanek and C{\'e}cile Philippe and Wolfgang Wadsak and Markus Mitterhauser and Walter J{\"a}ger and Helmuth Haslacher and Markus M{\"u}ller and Oliver Langer}, title = {Interaction of 11C-Tariquidar and 11C-Elacridar with P-Glycoprotein and Breast Cancer Resistance Protein at the Human Blood{\textendash}Brain Barrier}, volume = {54}, number = {8}, pages = {1181--1187}, year = {2013}, doi = {10.2967/jnumed.112.118232}, publisher = {Society of Nuclear Medicine}, abstract = {The adenosine triphosphate-binding cassette transporters P-glycoprotein (Pgp) and breast cancer resistance protein (BCRP) are 2 major gatekeepers at the blood{\textendash}brain barrier (BBB) that restrict brain distribution of several clinically used drugs. In this study, we investigated the suitability of the radiolabeled Pgp/BCRP inhibitors 11C-tariquidar and 11C-elacridar to assess Pgp density in the human brain with PET. Methods: Healthy subjects underwent a first PET scan of 120-min duration with either 11C-tariquidar (n = 6) or 11C-elacridar (n = 5) followed by a second PET scan of 60-min duration with (R)-11C-verapamil. During scan 1 (at 60 min after radiotracer injection), unlabeled tariquidar (3 mg/kg) was intravenously administered. Data were analyzed using 1-tissue 2-rate-constant (1T2K) and 2-tissue 4-rate-constant (2T4K) compartment models and either metabolite-corrected or uncorrected arterial input functions. Results: After injection of 11C-tariquidar or 11C-elacridar, the brain PET signal corrected for radioactivity in the vasculature was low (\~{}0.1 standardized uptake value), with slow washout. In response to tariquidar injection, a moderate but statistically significant rise in brain PET signal was observed for 11C-tariquidar (+27\% {\textpm} 15\%, P = 0.014, paired t test) and 11C-elacridar (+21\% {\textpm} 15\%, P = 0.014) without changes in plasma activity concentrations. Low levels of radiolabeled metabolites (\<25\%) were detected in plasma up to 60 min after injection of 11C-tariquidar or 11C-elacridar. The 2T4K model provided better data fits than the 1T2K model. Model outcome parameters were similar when metabolite-corrected or uncorrected input functions were used. There was no significant correlation between distribution volumes of 11C-tariquidar or 11C-elacridar and distribution volumes of (R)-11C-verapamil in different brain regions. Conclusion: The in vivo behavior of 11C-tariquidar and 11C-elacridar was consistent with that of dual Pgp/BCRP substrates. Both tracers were unable to visualize cerebral Pgp density, most likely because of insufficiently high binding affinities in relation to the low density of Pgp in human brain (\~{}1.3 nM). Despite their inability to visualize Pgp density, 11C-tariquidar and 11C-elacridar may find use as a new class of radiotracers to study the interplay of Pgp and BCRP at the human BBB in limiting brain uptake of dual substrates.}, issn = {0161-5505}, URL = {https://jnm.snmjournals.org/content/54/8/1181}, eprint = {https://jnm.snmjournals.org/content/54/8/1181.full.pdf}, journal = {Journal of Nuclear Medicine} }