Water Permeability Adjusts Resorption in Lung Epithelia to Increased Apical Surface Liquid Volumes

Schmidt, Hanna; Michel, Christiane; Braubach, Peter; Fauler, Michael; Neubauer, Daniel; Thompson, Kristin E.; Frick, Manfred; Mizaikoff, Boris; Dietl, Paul; Wittekindt, Oliver H.

Erstveröffentlichung

2017

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Wissenschaftlicher Artikel

Authors

Schmidt, Hanna

Michel, Christiane

Braubach, Peter

Fauler, Michael

Neubauer, Daniel

et al.

Faculties

Fakultät für Naturwissenschaften
Medizinische Fakultät

Institutions

Institut für Allgemeine Physiologie
Institut für Analytische und Bioanalytische Chemie

Published in

American Journal of Respiratory Cell and Molecular Biology ; 56 (2017), 3. - S. 372-382. - ISSN 1044-1549. - eISSN 1535-4989

Link to publication

https://dx.doi.org/10.1165/rcmb.2016-0161OC

Funding information

Ministry of Science, Research, and Arts of Baden-Wurttemberg [Az:32-7533-6-10]
Deutsche Forschungsgemeinschaft [DI1402/3-1, SFB1149/1.A05]

Keywords

lung; epithelial transport; aquaporin; apical surface liquid; cystic-fibrosis; sodium-channel; serine proteases; airway epithelia; fluid transport; hypertonic saline; na+ transport; ion-transport; aquaporin 5; alpha-enac

Dewey Decimal Group

DDC 540 / Chemistry & allied sciences
DDC 610 / Medicine & health

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