Journalartikel
Autorenliste: Czikora, Istvan; Alli, Abdel; Bao, Hui-Fang; Kaftan, David; Sridhar, Supriya; Apell, Hans-Juergen; Gorshkov, Boris; White, Richard; Zimmermann, Astrid; Wendel, Albrecht; Pauly-Evers, Meike; Hamacher, Juerg; Garcia-Gabay, Irene; Fischer, Bernhard; Verin, Alexander; Bagi, Zsolt; Pittet, Jean Francois; Shabbir, Waheed; Lemmens-Gruber, Rosa; Chakraborty, Trinad; Lazrak, Ahmed; Matthay, Michael A.; Eaton, Douglas C.; Lucas, Rudolf
Jahr der Veröffentlichung: 2014
Seiten: 522-532
Zeitschrift: American Journal of Respiratory and Critical Care Medicine
Bandnummer: 190
Heftnummer: 5
ISSN: 1073-449X
eISSN: 1535-4970
Open Access Status: Green
DOI Link: https://doi.org/10.1164/rccm.201405-0833OC
Verlag: American Thoracic Society
Rationale: Alveolar liquid clearance is regulated by Na+ uptake through the apically expressed epithelial sodium channel (ENaC) and basolaterally localized Na+-K+-ATPase in type II alveolar epithelial cells. Dysfunction of these Na+ transporters during pulmonary inflammation can contribute to pulmonary edema. Objectives: In this study, we sought to determine the precise mechanism by which the TIP peptide, mimicking the lectin-like domain of tumor necrosis factor (TNF), stimulates Na+ uptake in a homologous cell system in the presence or absence of the bacterial toxin pneumolysin (PLY). Methods: We used a combined biochemical, electrophysiological, and molecular biological in vitro approach and assessed the physiological relevance of the lectin-like domain of TNF in alveolar liquid clearance in vivo by generating triple-mutant TNF knock-in mice that express a mutant TNF with deficient Na+ uptake stimulatory activity. Measurements and Main Results: TIP peptide directly activates ENaC, but not the Na+-K+-ATPase, upon binding to the carboxyterminal domain of the a subunit of the channel. In the presence of PLY, a mediator of pneumococcal-induced pulmonary edema, this binding stabilizes the ENaC-PIP2-MARCKS complex, which is necessary for the open probability conformation of the channel and preserves ENaC-alpha protein expression, by means of blunting the protein kinase C-alpha pathway. Triple-mutant TNF knock-in-mice are more prone than wild-type mice to develop edema with low-dose intratracheal PLY, correlating with reduced pulmonary ENaC-alpha subunit expression. Conclusions: These results demonstrate a novel TNF-mediated mechanism of direct ENaC activation and indicate a physiological role for the lectin-like domain of TNF in the resolution of alveolar edema during inflammation.
Abstract:
Zitierstile
Harvard-Zitierstil: Czikora, I., Alli, A., Bao, H., Kaftan, D., Sridhar, S., Apell, H., et al. (2014) A Novel Tumor Necrosis Factor-mediated Mechanism of Direct Epithelial Sodium Channel Activation, American Journal of Respiratory and Critical Care Medicine, 190(5), pp. 522-532. https://doi.org/10.1164/rccm.201405-0833OC
APA-Zitierstil: Czikora, I., Alli, A., Bao, H., Kaftan, D., Sridhar, S., Apell, H., Gorshkov, B., White, R., Zimmermann, A., Wendel, A., Pauly-Evers, M., Hamacher, J., Garcia-Gabay, I., Fischer, B., Verin, A., Bagi, Z., Pittet, J., Shabbir, W., Lemmens-Gruber, R., ...Lucas, R. (2014). A Novel Tumor Necrosis Factor-mediated Mechanism of Direct Epithelial Sodium Channel Activation. American Journal of Respiratory and Critical Care Medicine. 190(5), 522-532. https://doi.org/10.1164/rccm.201405-0833OC
Schlagwörter
acute lung injury; ENaC; epithelial sodium channel; FLUID CLEARANCE; KINASE-C-ALPHA; LECTIN-LIKE DOMAIN; NA+ TRANSPORT; PNEUMOLYSIN; protein kinase C-alpha; pulmonary edema; PULMONARY-EDEMA; TNF; tumor necrosis factor
