Organic cation transporters (OCT) 1, 2 and 3 and novel organic cation transporters (OCTN) 1 and 2 of the solute carrier 22 (SLC22) family are involved in the cellular transport of endogenous compounds such as neurotransmitters, l-carnitine and ergothioneine. OCT/Ns have also been implicated in the transport of xenobiotics across various biological barriers, for example biguanides and histamine receptor antagonists. In addition, several drugs used in the treatment of respiratory disorders are cations at physiological pH and potential substrates of OCT/Ns. OCT/Ns may also be associated with the development of chronic lung diseases such as allergic asthma and chronic obstructive pulmonary disease (COPD) and, thus, are possible new drug targets. As part of the Special Issue “Physiology, Biochemistry and Pharmacology of Transporters for Organic Cations”, this review provides an overview of recent findings on the (patho)physiological and pharmacological functions of organic cation transporters in the lung.
Multidrug resistance-associated protein 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. Aim of this study was to assess the impact of ABCC1 on the pulmonary disposition of 6-bromo-7-11 C-methylpurine (11 C-BMP), a prodrug radiotracer which is intracellularly conjugated with glutathione to form the ABCC1 substrate S-(6-(7-11 Cmethylpurinyl))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 (i.v.) or by intratracheal aerosolization (i.t.). In vitro transport experiments were performed with unlabeled BMP in the human distal lung epithelial cell line NCI-H441. Results: Pulmonary kinetics of radioactivity were significantly different between wild-type and Abcc1 (-/-) rats, but differences were more pronounced after i.t. than after i.v. administration. After i.v. administration lung exposure (AUClung) was 77% higher and the elimination slope of radioactivity washout from the lungs (kE,lung) was 70% lower, whereas after i.t. administration AUClung was 352% higher and kE,lung was 86% lower in Abcc1 (-/-) rats. Pretreatment with MK571 decreased kE,lung by 20% after i.t. radiotracer administration. Intracellular accumulation of MPG in NCI-H441 cells was significantly higher and extracellular efflux was lower in presence than in 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.
Multidrug resistance-associated protein-1 (MRP1/ABCC1) is highly expressed in human lung tissues. Recent studies suggest that it significantly affects the pulmonary disposition of its substrates, both after pulmonary and systemic administration. To better understand the molecular mechanisms involved, we studied the expression, subcellular localization and activity of MRP1 in freshly isolated human alveolar epithelial type 2 (AT2) and type 1-like (AT1-like) cells in primary culture, and in the NCI-H441 cell line. Moreover, the effect of cigarette smoke extract (CSE) and a series of inhaled drugs on MRP1 abundance and activity was investigated in vitro. MRP1 expression levels were measured by q-PCR and immunoblot in AT2 and AT1-like cells from different donors and in several passages of the NCI-H441 cell line. The subcellular localization of the transporter was studied by confocal laser scanning microscopy and cell surface protein biotinylation. MRP1 activity was assessed by bidirectional transport and efflux experiments using the MRP1 substrate, 5(6)-carboxyfluorescein [CF; formed intracellularly from 5(6)-carboxyfluorescein-diacetate (CFDA)] in AT1-like and NCI-H441 cell monolayers. Furthermore, the effect of CSE as well as several bronchodilators and inhaled corticosteroids on MRP1 abundance and CF efflux was investigated. MRP1 protein abundance increased upon differentiation from AT2 to AT1-like phenotype, however, ABCC1 gene levels remained unchanged. MRP1 abundance in NCI-H441 cells were comparable to those found in AT1-like cells. The transporter was detected primarily in basolateral membranes of both cell types which was consistent with net basolateral efflux of CF. Likewise, bidirectional transport studies showed net apicalto-basolateral transport of CF which was sensitive to the MRP1 inhibitor MK-571. Budesonide, beclomethasone dipropionate, salbutamol sulfate, and CSE decreased
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