IL-13 receptor α2 contributes to development of experimental allergic asthma
IL-13 receptor α2 (IL-13Rα2) binds IL-13 with high affinity and modulates IL-13 responses. There are soluble and membrane forms of IL-13Rα2 generated by alternative splicing in mice, but human subjects express only the membrane form of IL-13Rα2 (memIL-13Rα2). We determined the role of memIL-13Rα2 in...
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| Published in | Journal of allergy and clinical immunology Vol. 132; no. 4; pp. 951 - 958.e6 |
|---|---|
| Main Authors | , , , , , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
New York, NY
Mosby, Inc
01.10.2013
Elsevier |
| Subjects | |
| Online Access | Get full text |
| ISSN | 0091-6749 1097-6825 1097-6825 |
| DOI | 10.1016/j.jaci.2013.04.016 |
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| Abstract | IL-13 receptor α2 (IL-13Rα2) binds IL-13 with high affinity and modulates IL-13 responses. There are soluble and membrane forms of IL-13Rα2 generated by alternative splicing in mice, but human subjects express only the membrane form of IL-13Rα2 (memIL-13Rα2).
We determined the role of memIL-13Rα2 in the development of allergic inflammation in mouse models of asthma.
IL-13Rα2–deficient and memIL-13Rα2 lung epithelium–specific transgenic mice were challenged with house dust mite (HDM). Airway hyperresponsiveness (AHR) and inflammation were assessed based on the airway pressure-time index, bronchoalveolar lavage (BAL) cell counts, and lung histology. Mucus production was determined by means of periodic acid–Schiff staining of lung sections, Western blot analysis of chloride channel calcium activated 3 (CLCA3) expression in lung homogenates, and ELISA of Muc5ac in BAL fluid. The expression of cytokines and chemokines was determined by using RT–quantitative PCR.
In IL-13Rα2–deficient mice AHR and airway inflammation were attenuated compared with levels seen in wild-type mice after HDM challenge. Lung epithelial overexpression of memIL-13Rα2 in the IL-13Rα2–deficient mice reconstituted AHR and inflammation to levels similar to those observed in HDM-challenged wild-type mice. Mucus production was attenuated in lungs from HDM-treated IL-13Rα2–deficient mice, whereas lung epithelial overexpression of memIL-13Rα2 increased mucus production. Lung epithelial overexpression of memIL-13Rα2 had no effect on levels of the soluble form of IL-13Rα2 in serum or BAL fluid and did not affect IL-13–dependent signal transducer and activator of transcription 6 activation in the lungs.
These data collectively support a distinct role for memIL-13Rα2 in the lung and suggest that memIL-13Rα2 might contribute to allergic inflammation. |
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| AbstractList | BACKGROUND: IL-13 receptor α2 (IL-13Rα2) binds IL-13 with high affinity and modulates IL-13 responses. There are soluble and membrane forms of IL-13Rα2 generated by alternative splicing in mice, but human subjects express only the membrane form of IL-13Rα2 (memIL-13Rα2). OBJECTIVE: We determined the role of memIL-13Rα2 in the development of allergic inflammation in mouse models of asthma. METHODS: IL-13Rα2–deficient and memIL-13Rα2 lung epithelium–specific transgenic mice were challenged with house dust mite (HDM). Airway hyperresponsiveness (AHR) and inflammation were assessed based on the airway pressure-time index, bronchoalveolar lavage (BAL) cell counts, and lung histology. Mucus production was determined by means of periodic acid–Schiff staining of lung sections, Western blot analysis of chloride channel calcium activated 3 (CLCA3) expression in lung homogenates, and ELISA of Muc5ac in BAL fluid. The expression of cytokines and chemokines was determined by using RT–quantitative PCR. RESULTS: In IL-13Rα2–deficient mice AHR and airway inflammation were attenuated compared with levels seen in wild-type mice after HDM challenge. Lung epithelial overexpression of memIL-13Rα2 in the IL-13Rα2–deficient mice reconstituted AHR and inflammation to levels similar to those observed in HDM-challenged wild-type mice. Mucus production was attenuated in lungs from HDM-treated IL-13Rα2–deficient mice, whereas lung epithelial overexpression of memIL-13Rα2 increased mucus production. Lung epithelial overexpression of memIL-13Rα2 had no effect on levels of the soluble form of IL-13Rα2 in serum or BAL fluid and did not affect IL-13–dependent signal transducer and activator of transcription 6 activation in the lungs. CONCLUSION: These data collectively support a distinct role for memIL-13Rα2 in the lung and suggest that memIL-13Rα2 might contribute to allergic inflammation. IL-13 receptor α2 (IL-13Rα2) binds IL-13 with high affinity and modulates IL-13 responses. There are soluble and membrane forms of IL-13Rα2 generated by alternative splicing in mice, but human subjects express only the membrane form of IL-13Rα2 (memIL-13Rα2). We determined the role of memIL-13Rα2 in the development of allergic inflammation in mouse models of asthma. IL-13Rα2–deficient and memIL-13Rα2 lung epithelium–specific transgenic mice were challenged with house dust mite (HDM). Airway hyperresponsiveness (AHR) and inflammation were assessed based on the airway pressure-time index, bronchoalveolar lavage (BAL) cell counts, and lung histology. Mucus production was determined by means of periodic acid–Schiff staining of lung sections, Western blot analysis of chloride channel calcium activated 3 (CLCA3) expression in lung homogenates, and ELISA of Muc5ac in BAL fluid. The expression of cytokines and chemokines was determined by using RT–quantitative PCR. In IL-13Rα2–deficient mice AHR and airway inflammation were attenuated compared with levels seen in wild-type mice after HDM challenge. Lung epithelial overexpression of memIL-13Rα2 in the IL-13Rα2–deficient mice reconstituted AHR and inflammation to levels similar to those observed in HDM-challenged wild-type mice. Mucus production was attenuated in lungs from HDM-treated IL-13Rα2–deficient mice, whereas lung epithelial overexpression of memIL-13Rα2 increased mucus production. Lung epithelial overexpression of memIL-13Rα2 had no effect on levels of the soluble form of IL-13Rα2 in serum or BAL fluid and did not affect IL-13–dependent signal transducer and activator of transcription 6 activation in the lungs. These data collectively support a distinct role for memIL-13Rα2 in the lung and suggest that memIL-13Rα2 might contribute to allergic inflammation. IL-13 receptor α2 (IL-13Rα2) binds IL-13 with high affinity and modulates IL-13 responses. There are soluble and membrane forms of IL-13Rα2 generated by alternative splicing in mice, but human subjects express only the membrane form of IL-13Rα2 (memIL-13Rα2).BACKGROUNDIL-13 receptor α2 (IL-13Rα2) binds IL-13 with high affinity and modulates IL-13 responses. There are soluble and membrane forms of IL-13Rα2 generated by alternative splicing in mice, but human subjects express only the membrane form of IL-13Rα2 (memIL-13Rα2).We determined the role of memIL-13Rα2 in the development of allergic inflammation in mouse models of asthma.OBJECTIVEWe determined the role of memIL-13Rα2 in the development of allergic inflammation in mouse models of asthma.IL-13Rα2-deficient and memIL-13Rα2 lung epithelium-specific transgenic mice were challenged with house dust mite (HDM). Airway hyperresponsiveness (AHR) and inflammation were assessed based on the airway pressure-time index, bronchoalveolar lavage (BAL) cell counts, and lung histology. Mucus production was determined by means of periodic acid-Schiff staining of lung sections, Western blot analysis of chloride channel calcium activated 3 (CLCA3) expression in lung homogenates, and ELISA of Muc5ac in BAL fluid. The expression of cytokines and chemokines was determined by using RT-quantitative PCR.METHODSIL-13Rα2-deficient and memIL-13Rα2 lung epithelium-specific transgenic mice were challenged with house dust mite (HDM). Airway hyperresponsiveness (AHR) and inflammation were assessed based on the airway pressure-time index, bronchoalveolar lavage (BAL) cell counts, and lung histology. Mucus production was determined by means of periodic acid-Schiff staining of lung sections, Western blot analysis of chloride channel calcium activated 3 (CLCA3) expression in lung homogenates, and ELISA of Muc5ac in BAL fluid. The expression of cytokines and chemokines was determined by using RT-quantitative PCR.In IL-13Rα2-deficient mice AHR and airway inflammation were attenuated compared with levels seen in wild-type mice after HDM challenge. Lung epithelial overexpression of memIL-13Rα2 in the IL-13Rα2-deficient mice reconstituted AHR and inflammation to levels similar to those observed in HDM-challenged wild-type mice. Mucus production was attenuated in lungs from HDM-treated IL-13Rα2-deficient mice, whereas lung epithelial overexpression of memIL-13Rα2 increased mucus production. Lung epithelial overexpression of memIL-13Rα2 had no effect on levels of the soluble form of IL-13Rα2 in serum or BAL fluid and did not affect IL-13-dependent signal transducer and activator of transcription 6 activation in the lungs.RESULTSIn IL-13Rα2-deficient mice AHR and airway inflammation were attenuated compared with levels seen in wild-type mice after HDM challenge. Lung epithelial overexpression of memIL-13Rα2 in the IL-13Rα2-deficient mice reconstituted AHR and inflammation to levels similar to those observed in HDM-challenged wild-type mice. Mucus production was attenuated in lungs from HDM-treated IL-13Rα2-deficient mice, whereas lung epithelial overexpression of memIL-13Rα2 increased mucus production. Lung epithelial overexpression of memIL-13Rα2 had no effect on levels of the soluble form of IL-13Rα2 in serum or BAL fluid and did not affect IL-13-dependent signal transducer and activator of transcription 6 activation in the lungs.These data collectively support a distinct role for memIL-13Rα2 in the lung and suggest that memIL-13Rα2 might contribute to allergic inflammation.CONCLUSIONThese data collectively support a distinct role for memIL-13Rα2 in the lung and suggest that memIL-13Rα2 might contribute to allergic inflammation. |
| Author | Chen, Weiguo Ericksen, Mark B. Khurana Hershey, Gurjit K. Kinker, Kayla G. Gibson, Aaron M. Wills-Karp, Marsha Finkelman, Fred D. Sivaprasad, Umasundari Cunningham, Christie M. Bass, Stacey A. |
| Author_xml | – sequence: 1 givenname: Weiguo surname: Chen fullname: Chen, Weiguo organization: Division of Asthma Research, Cincinnati Children’s Hospital Medical Center, Cincinnati, Ohio – sequence: 2 givenname: Umasundari surname: Sivaprasad fullname: Sivaprasad, Umasundari organization: Division of Asthma Research, Cincinnati Children’s Hospital Medical Center, Cincinnati, Ohio – sequence: 3 givenname: Aaron M. surname: Gibson fullname: Gibson, Aaron M. organization: Division of Asthma Research, Cincinnati Children’s Hospital Medical Center, Cincinnati, Ohio – sequence: 4 givenname: Mark B. surname: Ericksen fullname: Ericksen, Mark B. organization: Division of Asthma Research, Cincinnati Children’s Hospital Medical Center, Cincinnati, Ohio – sequence: 5 givenname: Christie M. surname: Cunningham fullname: Cunningham, Christie M. organization: Division of Asthma Research, Cincinnati Children’s Hospital Medical Center, Cincinnati, Ohio – sequence: 6 givenname: Stacey A. surname: Bass fullname: Bass, Stacey A. organization: Division of Asthma Research, Cincinnati Children’s Hospital Medical Center, Cincinnati, Ohio – sequence: 7 givenname: Kayla G. surname: Kinker fullname: Kinker, Kayla G. organization: Division of Asthma Research, Cincinnati Children’s Hospital Medical Center, Cincinnati, Ohio – sequence: 8 givenname: Fred D. surname: Finkelman fullname: Finkelman, Fred D. organization: Division of Immunobiology, Cincinnati Children’s Hospital Medical Center, Cincinnati, Ohio – sequence: 9 givenname: Marsha surname: Wills-Karp fullname: Wills-Karp, Marsha organization: Division of Immunobiology, Cincinnati Children’s Hospital Medical Center, Cincinnati, Ohio – sequence: 10 givenname: Gurjit K. surname: Khurana Hershey fullname: Khurana Hershey, Gurjit K. email: Gurjit.Hershey@cchmc.org organization: Division of Asthma Research, Cincinnati Children’s Hospital Medical Center, Cincinnati, Ohio |
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| Copyright | 2013 American Academy of Allergy, Asthma & Immunology American Academy of Allergy, Asthma & Immunology 2014 INIST-CNRS Copyright © 2013 American Academy of Allergy, Asthma & Immunology. Published by Mosby, Inc. All rights reserved. |
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| Keywords | airway inflammation airway hyperresponsiveness IL-13Rα1 IL-13Rα2 PAS BALF hGH IL-13 AHR BAL lung HDM IL-13 receptor rCC10 EMSA sIL-13Rα2 APTI qPCR STAT6 MCP memIL-13Rα2 CLCA3 IL-4Rα Membrane form of IL-13Rα2 Soluble form of IL-13Rα2 Rat Clara cell 10 kDa Signal transducer and activator of transcription 6 IL-4 receptor α Bronchoalveolar lavage Chloride channel calcium activated 3 Electrophoretic mobility shift assay Periodic acid–Schiff Airway pressure-time index IL-13 receptor α1 IL-13 receptor α2 House dust mite Quantitative PCR Monocyte chemoattractant protein Human growth hormone Bronchoalveolar lavage fluid Lung disease Allergy Immunopathology Hyperreactivity Respiratory disease Lung Cytokine Inflammation Interleukin 13 Experimental study Respiratory system Asthma Respiratory tract Immunology Bronchus disease Obstructive pulmonary disease Biological receptor Airway hyperresponsiveness |
| Language | English |
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| Snippet | IL-13 receptor α2 (IL-13Rα2) binds IL-13 with high affinity and modulates IL-13 responses. There are soluble and membrane forms of IL-13Rα2 generated by... Background IL-13 receptor α2 (IL-13Rα2) binds IL-13 with high affinity and modulates IL-13 responses. There are soluble and membrane forms of IL-13Rα2... BACKGROUND: IL-13 receptor α2 (IL-13Rα2) binds IL-13 with high affinity and modulates IL-13 responses. There are soluble and membrane forms of IL-13Rα2... |
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| SubjectTerms | airway hyperresponsiveness airway inflammation Allergy and Immunology alternative splicing animal models Animals asthma Asthma - complications Asthma - immunology Asthma - metabolism Asthma - pathology Biological and medical sciences blood serum Bronchial Hyperreactivity - immunology Bronchial Hyperreactivity - metabolism Bronchial Hyperreactivity - pathology Bronchoalveolar Lavage Fluid calcium channels Cell Membrane - metabolism chemokines Chronic obstructive pulmonary disease, asthma Disease Models, Animal dust dust mites enzyme-linked immunosorbent assay Female Fundamental and applied biological sciences. Psychology Fundamental immunology gene overexpression genetically modified organisms histology Humans Hypersensitivity - complications Hypersensitivity - immunology Hypersensitivity - metabolism Hypersensitivity - pathology IL-13 IL-13 receptor Immunopathology inflammation Inflammation - immunology Inflammation - metabolism Inflammation - pathology interleukin-13 Interleukin-13 Receptor alpha2 Subunit - genetics Interleukin-13 Receptor alpha2 Subunit - immunology Interleukin-13 Receptor alpha2 Subunit - metabolism lung Lung - immunology Lung - pathology lungs Male Medical sciences Mice mucus Pneumology polymerase chain reaction Pyroglyphidae Sarcoidosis. Granulomatous diseases of unproved etiology. Connective tissue diseases. Elastic tissue diseases. Vasculitis signal transduction transcription factors Western blotting |
| Title | IL-13 receptor α2 contributes to development of experimental allergic asthma |
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