Assessing the Activity of Multidrug Resistance–Associated Protein 1 at the Lung Epithelial Barrier
Severin Mairinger, Johannes A. Sake, Irene Hernández-Lozano, Thomas Filip, Michael Sauberer, Johann Stanek, Thomas Wanek, Carsten Ehrhardt, Oliver Langer
Abstract
Multidrug resistance-associated protein 1 (adenosine triphosphatebinding cassette subfamily C member 1 [ABCC1]) is abundantly expressed at the lung epithelial barrier, where it may influence the pulmonary disposition of inhaled drugs and contribute to variability in therapeutic response. The aim of this study was to assess the impact of ABCC1 on the pulmonary disposition of 6-bromo-7-11 Cmethylpurine ( 11 C-BMP), a prodrug radiotracer that is intracellularly conjugated with glutathione to form the ABCC1 substrate S-(6-(7-11 C-methylpurinyl))glutathione ( 11 C-MPG). Methods: Groups of Abcc1 (-/-) rats, wild-type rats pretreated with the ABCC1 inhibitor MK571, and wild-type control rats underwent dynamic PET scans after administration of 11 C-BMP intravenously or by intratracheal aerosolization. In vitro transport experiments were performed with unlabeled BMP on the human distal lung epithelial cell line NCI-H441. Results: The pulmonary kinetics of radioactivity significantly differed between wild-type and Abcc1 (-/-) rats, but differences were more pronounced after intratracheal than after intravenous administration. After intravenous administration, lung exposure (area under the lung time-activity curve from 0 to 80 min after radiotracer administration [AUC lung ]) was 77% higher and the elimination slope of radioactivity washout from the lungs (k E,lung ) was 70% lower in Abcc1 (-/-) rats, whereas after intratracheal administration, AUC lung was 352% higher and k E,lung was 86% lower in Abcc1 (-/-) rats. Pretreatment with MK571 decreased k E,lung by 20% after intratracheal radiotracer administration. Intracellular accumulation of MPG in NCI-H441 cells was significantly higher and extracellular efflux was lower in the presence than in the absence of MK571. Conclusion: PET with pulmonary administered 11 C-BMP can measure ABCC1 activity at the lung epithelial barrier and may be applicable in humans to assess the effects of disease, genetic polymorphisms, or concomitant drug intake on pulmonary ABCC1 activity.