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Distribution characteristics of clarithromycin and azithromycin, macrolide antimicrobial agents used for treatment of respiratory infections, in lung epithelial lining fluid and alveolar macrophages
Author(s) -
Togami Kohei,
Chono Sumio,
Morimoto Kazuhiro
Publication year - 2011
Publication title -
biopharmaceutics and drug disposition
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.419
H-Index - 58
eISSN - 1099-081X
pISSN - 0142-2782
DOI - 10.1002/bdd.767
Subject(s) - azithromycin , pharmacology , clarithromycin , in vivo , distribution (mathematics) , lung , in vitro , alveolar macrophage , extracellular , medicine , pharmacokinetics , chemistry , antibiotics , biology , biochemistry , macrophage , mathematical analysis , microbiology and biotechnology , mathematics
The distribution characteristics of clarithromycin (CAM) and azithromycin (AZM), macrolide antimicrobial agents, in lung epithelial lining fluid (ELF) and alveolar macrophages (AMs) were evaluated. In the in vivo animal experiments, the time‐courses of the concentrations of CAM and AZM in ELF and AMs following oral administration (50 mg/kg) to rats were markedly higher than those in plasma, and the area under the drug concentration–time curve ( AUC ) ratios of ELF/plasma of CAM and AZM were 12 and 2.2, and the AUC ratios of AMs/ELF were 37 and 291, respectively. In the in vitro transport experiments, the basolateral‐to‐apical transport of CAM and AZM through model lung epithelial cell (Calu‐3) monolayers were greater than the apical‐to‐basolateral transport. MDR1 substrates reduced the basolateral‐to‐apical transport of CAM and AZM. In the in vitro uptake experiments, the intracellular concentrations of CAM and AZM in cultured AMs (NR8383) were greater than the extracellular concentrations. The uptake of CAM and AZM by NR8383 was inhibited by ATP depletors. These data suggest that the high distribution of CAM and AZM to AMs is due to the sustained distribution to ELF via MDR1 as well as the high uptake by the AMs themselves via active transport mechanisms. Copyright © 2011 John Wiley & Sons, Ltd.

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