Epithelial Organic Cation Transporters Ensure pH-Dependent Drug Absorption in the Airway
Most inhaled beta(2)-adrenergic agonist and anticholinergic bronchodilators have low lipid solubility because of their transient or permanent positive net charge at physiologic pH. Airway absorption of these cationic drugs is incompletely understood. We examined carrier-mediated mechanisms of cation...
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| Published in | American journal of respiratory cell and molecular biology Vol. 36; no. 1; pp. 53 - 60 |
|---|---|
| Main Authors | , , , , , , |
| Format | Journal Article |
| Language | English |
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United States
Am Thoracic Soc
01.01.2007
American Thoracic Society |
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| Abstract | Most inhaled beta(2)-adrenergic agonist and anticholinergic bronchodilators have low lipid solubility because of their transient or permanent positive net charge at physiologic pH. Airway absorption of these cationic drugs is incompletely understood. We examined carrier-mediated mechanisms of cationic drug uptake by human airway epithelia. Airway tissues and epithelial cells, obtained from lung donors without preexisting lung disease, were evaluated for organic cation transporter expression by quantitative RT-PCR and immunofluorescence. For in vitro functional studies on primary airway epithelial cells, uptake of the cationic fluorophore 4-[4-(dimethylamino)-styryl]-N-methylpyridinium (ASP+) was characterized. Quantitative RT-PCR analysis demonstrated high mRNA levels for two polyspecific organic cation/carnitine transporters, OCTN1 and OCTN2, in human airway epithelia. Immunofluorescence of human airway sections confirmed OCTN1/2 protein expression, with a predominant localization to the apical portion of epithelial cells. Primary airway epithelial cells showed a carrier-mediated, temperature-sensitive and saturable uptake of ASP(+). Seventy-five to eighty percent of ASP(+) uptake was inhibited by L-carnitine, an OCTN2-carried zwitterion. The uptake was pH dependent, with approximately 3-fold lower rates at acidic (pH 5.7) than at alkaline (pH 8.2) extracellular pH. Albuterol and formoterol inhibited ASP(+) uptake, suggesting that all these molecules are carried by the same transport mechanism. These findings demonstrate the existence and functional role of a pH-dependent organic cation uptake machinery, namely OCTN1 and OCTN2, in human airway epithelia. We suggest that epithelial OCTN1/2 are involved in the delivery of inhaled cationic bronchodilators to the airway tissue. |
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| AbstractList | Most inhaled beta(2)-adrenergic agonist and anticholinergic bronchodilators have low lipid solubility because of their transient or permanent positive net charge at physiologic pH. Airway absorption of these cationic drugs is incompletely understood. We examined carrier-mediated mechanisms of cationic drug uptake by human airway epithelia. Airway tissues and epithelial cells, obtained from lung donors without preexisting lung disease, were evaluated for organic cation transporter expression by quantitative RT-PCR and immunofluorescence. For in vitro functional studies on primary airway epithelial cells, uptake of the cationic fluorophore 4-[4-(dimethylamino)-styryl]-N-methylpyridinium (ASP+) was characterized. Quantitative RT-PCR analysis demonstrated high mRNA levels for two polyspecific organic cation/carnitine transporters, OCTN1 and OCTN2, in human airway epithelia. Immunofluorescence of human airway sections confirmed OCTN1/2 protein expression, with a predominant localization to the apical portion of epithelial cells. Primary airway epithelial cells showed a carrier-mediated, temperature-sensitive and saturable uptake of ASP(+). Seventy-five to eighty percent of ASP(+) uptake was inhibited by L-carnitine, an OCTN2-carried zwitterion. The uptake was pH dependent, with approximately 3-fold lower rates at acidic (pH 5.7) than at alkaline (pH 8.2) extracellular pH. Albuterol and formoterol inhibited ASP(+) uptake, suggesting that all these molecules are carried by the same transport mechanism. These findings demonstrate the existence and functional role of a pH-dependent organic cation uptake machinery, namely OCTN1 and OCTN2, in human airway epithelia. We suggest that epithelial OCTN1/2 are involved in the delivery of inhaled cationic bronchodilators to the airway tissue. Most inhaled β 2 -adrenergic agonist and anticholinergic bronchodilators have low lipid solubility because of their transient or permanent positive net charge at physiologic pH. Airway absorption of these cationic drugs is incompletely understood. We examined carrier-mediated mechanisms of cationic drug uptake by human airway epithelia. Airway tissues and epithelial cells, obtained from lung donors without preexisting lung disease, were evaluated for organic cation transporter expression by quantitative RT-PCR and immunofluorescence. For in vitro functional studies on primary airway epithelial cells, uptake of the cationic fluorophore 4-[4-(dimethylamino)-styryl]- N -methylpyridinium (ASP + ) was characterized. Quantitative RT-PCR analysis demonstrated high mRNA levels for two polyspecific organic cation/carnitine transporters, OCTN1 and OCTN2, in human airway epithelia. Immunofluorescence of human airway sections confirmed OCTN1/2 protein expression, with a predominant localization to the apical portion of epithelial cells. Primary airway epithelial cells showed a carrier-mediated, temperature-sensitive and saturable uptake of ASP + . Seventy-five to eighty percent of ASP + uptake was inhibited by L-carnitine, an OCTN2-carried zwitterion. The uptake was pH dependent, with ∼ 3-fold lower rates at acidic (pH 5.7) than at alkaline (pH 8.2) extracellular pH. Albuterol and formoterol inhibited ASP + uptake, suggesting that all these molecules are carried by the same transport mechanism. These findings demonstrate the existence and functional role of a pH-dependent organic cation uptake machinery, namely OCTN1 and OCTN2, in human airway epithelia. We suggest that epithelial OCTN1/2 are involved in the delivery of inhaled cationic bronchodilators to the airway tissue. |
| Author | Schmid, Andreas Horvath, Gabor Schmid, Nathalie Salathe, Matthias Wanner, Adam Conner, Gregory E Fragoso, Miryam A |
| AuthorAffiliation | Division of Pulmonary and Critical Care Medicine and Department of Cell Biology and Anatomy, University of Miami Miller School of Medicine, Miami, Florida; and Department of Respiratory Medicine, Semmelweis University School of Medicine, Budapest, Hungary |
| AuthorAffiliation_xml | – name: Division of Pulmonary and Critical Care Medicine and Department of Cell Biology and Anatomy, University of Miami Miller School of Medicine, Miami, Florida; and Department of Respiratory Medicine, Semmelweis University School of Medicine, Budapest, Hungary |
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| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/16917073$$D View this record in MEDLINE/PubMed |
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| Notes | ObjectType-Article-1 SourceType-Scholarly Journals-1 ObjectType-Feature-2 content type line 23 Originally Published in Press as DOI: 10.1165/rcmb.2006-0230OC on August 17, 2006 Conflict of Interest Statement: G.H. does not have a financial relationship with a commercial entity that has an interest in the subject of this manuscript. N.S. does not have a financial relationship with a commercial entity that has an interest in the subject of this manuscript. M.A.F. does not have a financial relationship with a commercial entity that has an interest in the subject of this manuscript. A.S. does not have a financial relationship with a commercial entity that has an interest in the subject of this manuscript. G.E.C. does not have a financial relationship with a commercial entity that has an interest in the subject of this manuscript. M.S. does not have a financial relationship with a commercial entity that has an interest in the subject of this manuscript. A.W. received $89,000 in 2006 as a research grant from AstraZeneca. This work was supported in part by an academic research grant from AstraZeneca and NHLBI grants HL-60644 and HL-66125. G.H. is a recipient of the Bolyai Fellowship of the Hungarian Academy of Sciences. Correspondence and requests for reprints should be addressed to Adam Wanner, M.D., and Gabor Horvath, M.D., Ph.D., Division of Pulmonary and Critical Care Medicine, University of Miami Miler School of Medicine, P.O. Box 016960 (R-47), Miami, FL 33101. E-mail: awanner@miami.edu and ghorvath.mail@gmail.com |
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| Snippet | Most inhaled beta(2)-adrenergic agonist and anticholinergic bronchodilators have low lipid solubility because of their transient or permanent positive net... Most inhaled β 2 -adrenergic agonist and anticholinergic bronchodilators have low lipid solubility because of their transient or permanent positive net charge... |
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| SubjectTerms | Adrenergic beta-Agonists - pharmacology Albuterol - administration & dosage Biological Transport, Active - drug effects Bronchodilator Agents - pharmacology Carnitine - pharmacology Cells, Cultured Epithelial Cells - metabolism Ethanolamines - administration & dosage Formoterol Fumarate Humans Hydrogen-Ion Concentration Organic Cation Transport Proteins - metabolism Pyridinium Compounds - pharmacokinetics Respiratory Mucosa - metabolism Reverse Transcriptase Polymerase Chain Reaction RNA, Messenger - metabolism Solute Carrier Family 22 Member 5 |
| Title | Epithelial Organic Cation Transporters Ensure pH-Dependent Drug Absorption in the Airway |
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