Hern-Tze Tina Tan1,2,3, Stefanie Hagner4,5, Fiorella Ruchti1,2, Urszula Radzikowska1,2,6, Ge Tan1,2,7, Can Altunbulakli1,2, Andrzej Eljaszewicz1,2,6, Marcin Moniuszko6, Mübeccel Akdis1,2, Cezmi A Akdis1,2, Holger Garn4,5, Milena Sokolowska1,2. 1. Swiss Institute of Allergy and Asthma Research (SIAF), University of Zurich, Davos, Switzerland. 2. Christine Kühne-Center for Allergy Research and Education, Davos, Switzerland. 3. Department of Immunology, School of Medical Sciences, Universiti Sains Malaysia, Kubang Kerian, Malaysia. 4. Institute of Laboratory Medicine and Pathobiochemistry, Molecular Diagnostics, Marburg, Germany. 5. Member of the German Center for Lung Research, Marburg, Germany. 6. Department of Regenerative Medicine and Immune Regulation, Medical University of Bialystok, Bialystok, Poland. 7. Functional Genomics Center Zurich, ETH Zurich/University of Zurich, Zurich, Switzerland.
Abstract
BACKGROUND: Asthma is a chronic respiratory disease with marked clinical and pathophysiological heterogeneity. Specific pathways are thought to be involved in the pathomechanisms of different inflammatory phenotypes of asthma; however, direct in vivo comparison has not been performed. METHODS: We developed mouse models representing three different phenotypes of allergic airway inflammation-eosinophilic, mixed, and neutrophilic asthma via different methods of house dust mite sensitization and challenge. Transcriptomic analysis of the lungs, followed by the RT-PCR, western blot, and confocal microscopy, was performed. Primary human bronchial epithelial cells cultured in air-liquid interface were used to study the mechanisms revealed in the in vivo models. RESULTS: By whole-genome transcriptome profiling of the lung, we found that airway tight junction (TJ), mucin, and inflammasome-related genes are differentially expressed in these distinct phenotypes. Further analysis of proteins from these families revealed that Zo-1 and Cldn18 were downregulated in all phenotypes, while increased Cldn4 expression was characteristic for neutrophilic airway inflammation. Mucins Clca1 (Gob5) and Muc5ac were upregulated in eosinophilic and even more in neutrophilic phenotype. Increased expression of inflammasome-related molecules such as Nlrp3, Nlrc4, Casp-1, and IL-1β was characteristic for neutrophilic asthma. In addition, we showed that inflammasome/Th17/neutrophilic axis cytokine-IL-1β-may transiently impair epithelial barrier function, while IL-1β and IL-17 increase mucin expressions in primary human bronchial epithelial cells. CONCLUSION: Our findings suggest that differential expression of TJ, mucin, and inflammasome-related molecules in distinct inflammatory phenotypes of asthma may be linked to pathophysiology and might reflect the differences observed in the clinic.
BACKGROUND:Asthma is a chronic respiratory disease with marked clinical and pathophysiological heterogeneity. Specific pathways are thought to be involved in the pathomechanisms of different inflammatory phenotypes of asthma; however, direct in vivo comparison has not been performed. METHODS: We developed mouse models representing three different phenotypes of allergic airway inflammation-eosinophilic, mixed, and neutrophilic asthma via different methods of house dust mite sensitization and challenge. Transcriptomic analysis of the lungs, followed by the RT-PCR, western blot, and confocal microscopy, was performed. Primary human bronchial epithelial cells cultured in air-liquid interface were used to study the mechanisms revealed in the in vivo models. RESULTS: By whole-genome transcriptome profiling of the lung, we found that airway tight junction (TJ), mucin, and inflammasome-related genes are differentially expressed in these distinct phenotypes. Further analysis of proteins from these families revealed that Zo-1 and Cldn18 were downregulated in all phenotypes, while increased Cldn4 expression was characteristic for neutrophilic airway inflammation. Mucins Clca1 (Gob5) and Muc5ac were upregulated in eosinophilic and even more in neutrophilic phenotype. Increased expression of inflammasome-related molecules such as Nlrp3, Nlrc4, Casp-1, and IL-1β was characteristic for neutrophilic asthma. In addition, we showed that inflammasome/Th17/neutrophilic axis cytokine-IL-1β-may transiently impair epithelial barrier function, while IL-1β and IL-17 increase mucin expressions in primary human bronchial epithelial cells. CONCLUSION: Our findings suggest that differential expression of TJ, mucin, and inflammasome-related molecules in distinct inflammatory phenotypes of asthma may be linked to pathophysiology and might reflect the differences observed in the clinic.
Authors: Charles F Schuler; Carrie-Anne Malinczak; Shannon K K Best; Susan B Morris; Andrew J Rasky; Catherine Ptaschinski; Nicholas W Lukacs; Wendy Fonseca Journal: Allergy Date: 2020-05-15 Impact factor: 13.146
Authors: Alisha M Smith; Nathan Harper; Justin A Meunier; Anne P Branum; Fabio Jimenez; Lavanya Pandranki; Andrew Carrillo; Charles S Dela Cruz; Marcos I Restrepo; Diego J Maselli; Cynthia G Rather; Anna H Heisser; Daniel A Ramirez; Weijing He; Robert A Clark; Charles P Andrews; Scott E Evans; Jacqueline A Pugh; Nu Zhang; Grace C Lee; Alvaro G Moreira; Leopoldo N Segal; Robert M Ramirez; Robert L Jacobs; Muthu Saravanan Manoharan; Jason F Okulicz; Sunil K Ahuja Journal: J Allergy Clin Immunol Date: 2021-01-23 Impact factor: 14.290
Authors: Sofie Van Den Broucke; Jeroen A J Vanoirbeek; Rita Derua; Peter H M Hoet; Manosij Ghosh Journal: Nanomaterials (Basel) Date: 2021-05-13 Impact factor: 5.076
Authors: Siti Muhamad Nur Husna; Hern-Tze Tina Tan; Norasnieda Md Shukri; Noor Suryani Mohd Ashari; Kah Keng Wong Journal: Front Immunol Date: 2021-05-21 Impact factor: 7.561
Authors: Alessandra Vultaggio; Ioana Agache; Cezmi A Akdis; Mubeccel Akdis; Sevim Bavbek; Apostolos Bossios; Jean Bousquet; Onur Boyman; Adam M Chaker; Susan Chan; Alexia Chatzipetrou; Wojciech Feleszko; Davide Firinu; Marek Jutel; Paula Kauppi; Ludger Klimek; Antonios Kolios; Akash Kothari; Marek L Kowalski; Andrea Matucci; Oscar Palomares; Oliver Pfaar; Barbara Rogala; Eva Untersmayr; Thomas Eiwegger Journal: Allergy Date: 2020-11 Impact factor: 14.710