Warning: Undefined array key "mm" in /www/wwwroot/www.ai-bt.com/si.php on line 10 Deprecated: trim(): Passing null to parameter #1 ($string) of type string is deprecated in /www/wwwroot/www.ai-bt.com/si.php on line 10 Eosinophil-derived IL-13 promotes emphysema.

Literature DB >> 30728205

Eosinophil-derived IL-13 promotes emphysema.

Alfred D Doyle¹, Manali Mukherjee², William E LeSuer³, Tyler B Bittner³, Saif M Pasha³, Justin J Frere³, Joseph L Neely³, Jake A Kloeber³, Kelly P Shim^1,4, Sergei I Ochkur³, Terence Ho², Sarah Svenningsen², Benjamin L Wright^1,4, Matthew A Rank¹, James J Lee^3,5, Parameswaran Nair², Elizabeth A Jacobsen³.

Abstract

The inflammatory responses in chronic airway diseases leading to emphysema are not fully defined. We hypothesised that lung eosinophilia contributes to airspace enlargement in a mouse model and to emphysema in patients with chronic obstructive pulmonary disease (COPD).A transgenic mouse model of chronic type 2 pulmonary inflammation (I5/hE2) was used to examine eosinophil-dependent mechanisms leading to airspace enlargement. Human sputum samples were collected for translational studies examining eosinophilia and matrix metalloprotease (MMP)-12 levels in patients with chronic airways disease.Airspace enlargement was identified in I5/hE2 mice and was dependent on eosinophils. Examination of I5/hE2 bronchoalveolar lavage identified elevated MMP-12, a mediator of emphysema. We showed, in vitro, that eosinophil-derived interleukin (IL)-13 promoted alveolar macrophage MMP-12 production. Airspace enlargement in I5/hE2 mice was dependent on MMP-12 and eosinophil-derived IL-4/13. Consistent with this, MMP-12 was elevated in patients with sputum eosinophilia and computed tomography evidence of emphysema, and also negatively correlated with forced expiratory volume in 1 s.A mouse model of chronic type 2 pulmonary inflammation exhibited airspace enlargement dependent on MMP-12 and eosinophil-derived IL-4/13. In chronic airways disease patients, lung eosinophilia was associated with elevated MMP-12 levels, which was a predictor of emphysema. These findings suggest an underappreciated mechanism by which eosinophils contribute to the pathologies associated with asthma and COPD.

Entities: Chemical Disease Gene Species

Mesh：

Substances：

Year: 2019 PMID： 30728205 PMCID： PMC7313423 DOI： 10.1183/13993003.01291-2018

Source DB: PubMed Journal: Eur Respir J ISSN： 0903-1936 Impact factor: 16.671

55 in total

Review 1. Immunologic basis of antigen-induced airway hyperresponsiveness.

Authors: M Wills-Karp
Journal: Annu Rev Immunol Date: 1999 Impact factor: 28.527

Review 2. Matrix metalloproteinases in emphysema.

Authors: Sina A Gharib; Anne M Manicone; William C Parks
Journal: Matrix Biol Date: 2018-03-23 Impact factor: 11.583

3. Eosinophils regulate dendritic cells and Th2 pulmonary immune responses following allergen provocation.

Authors: Elizabeth A Jacobsen; Katie R Zellner; Dana Colbert; Nancy A Lee; James J Lee
Journal: J Immunol Date: 2011-11-02 Impact factor: 5.422

4. Cys-leukotrienes promote fibrosis in a mouse model of eosinophil-mediated respiratory inflammation.

Authors: Sergei I Ochkur; Cheryl A Protheroe; Wen Li; Dana C Colbert; Katie R Zellner; Hua-Hao Shen; Andrew D Luster; Charles G Irvin; James J Lee; Nancy A Lee
Journal: Am J Respir Cell Mol Biol Date: 2013-12 Impact factor: 6.914

5. Cigarette smoke condensate induces MMP-12 gene expression in airway-like epithelia.

Authors: Mark C Lavigne; Michael J Eppihimer
Journal: Biochem Biophys Res Commun Date: 2005-04-29 Impact factor: 3.575

Review 6. New Anti-Eosinophil Drugs for Asthma and COPD: Targeting the Trait!

Authors: Elisabeth H Bel; Anneke Ten Brinke
Journal: Chest Date: 2017-06-02 Impact factor: 9.410

7. Interleukin-13-dependent expression of matrix metalloproteinase-12 is required for the development of airway eosinophilia in mice.

Authors: Mahmoud A Pouladi; Clinton S Robbins; Filip K Swirski; Meghan Cundall; Andrew N J McKenzie; Manel Jordana; Steven D Shapiro; Martin R Stämpfli
Journal: Am J Respir Cell Mol Biol Date: 2003-07-03 Impact factor: 6.914

8. Overlapping and enzyme-specific contributions of matrix metalloproteinases-9 and -12 in IL-13-induced inflammation and remodeling.

Authors: Sophie Lanone; Tao Zheng; Zhou Zhu; Wei Liu; Chun Geun Lee; Bing Ma; Qingsheng Chen; Robert J Homer; Jingming Wang; Lesley A Rabach; Morgan E Rabach; J Michael Shipley; Steven D Shapiro; Robert M Senior; Jack A Elias
Journal: J Clin Invest Date: 2002-08 Impact factor: 14.808

9. Further Studies of Unsuspected Emphysema in Nonsmoking Patients With Asthma With Persistent Expiratory Airflow Obstruction.

Authors: Arthur F Gelb; Alfred Yamamoto; Eric K Verbeken; Mark J Schein; Roxanna Moridzadeh; Diem Tran; Christine Fraser; Richard Barbers; Wafaa Elatre; Michael N Koss; Eric F Glassy; Jay A Nadel
Journal: Chest Date: 2017-11-29 Impact factor: 9.410

10. Efficient generation of long-distance conditional alleles using recombineering and a dual selection strategy in replicate plates.

Authors: David Voehringer; Davina Wu; Hong-Erh Liang; Richard M Locksley
Journal: BMC Biotechnol Date: 2009-07-28 Impact factor: 2.563

14 in total

1. M2-like, dermal macrophages are maintained via IL-4/CCL24-mediated cooperative interaction with eosinophils in cutaneous leishmaniasis.

Authors: Sang Hun Lee; Mariana M Chaves; Olena Kamenyeva; Pedro H Gazzinelli-Guimaraes; Byunghyun Kang; Gabriela Pessenda; Katiuska Passelli; Fabienne Tacchini-Cottier; Juraj Kabat; Elizabeth A Jacobsen; Thomas B Nutman; David L Sacks
Journal: Sci Immunol Date: 2020-04-10

2. Eosinophils attenuate hepatic ischemia-reperfusion injury in mice through ST2-dependent IL-13 production.

Authors: Yaochun Wang; Yang Yang; Meng Wang; Shuhong Wang; Jong-Min Jeong; Long Xu; Yankai Wen; Christoph Emontzpohl; Constance Lynn Atkins; Kevin Duong; Nicolas F Moreno; Xiaoyi Yuan; David R Hall; Wasim Dar; Dechun Feng; Bin Gao; Yong Xu; Zoltan Czigany; Sean P Colgan; J Steve Bynon; Shizuo Akira; Jared M Brown; Holger K Eltzschig; Elizabeth A Jacobsen; Cynthia Ju
Journal: Sci Transl Med Date: 2021-02-03 Impact factor: 17.956

3. Multi-omics analyses of airway host-microbe interactions in chronic obstructive pulmonary disease identify potential therapeutic interventions.

Authors: Zhengzheng Yan; Boxuan Chen; Yuqiong Yang; Xinzhu Yi; Mingyuan Wei; Gertrude Ecklu-Mensah; Mary M Buschmann; Haiyue Liu; Jingyuan Gao; Weijie Liang; Xiaomin Liu; Junhao Yang; Wei Ma; Zhenyu Liang; Fengyan Wang; Dandan Chen; Lingwei Wang; Weijuan Shi; Martin R Stampfli; Pan Li; Shenhai Gong; Xia Chen; Wensheng Shu; Emad M El-Omar; Jack A Gilbert; Martin J Blaser; Hongwei Zhou; Rongchang Chen; Zhang Wang
Journal: Nat Microbiol Date: 2022-08-22 Impact factor: 30.964

Review 4. Impact of Lung Microbiota on COPD.

Authors: Cristina Russo; Valeria Colaianni; Giuseppe Ielo; Maria Stella Valle; Lucia Spicuzza; Lucia Malaguarnera
Journal: Biomedicines Date: 2022-06-06

5. Deaccelerated Myogenesis and Autophagy in Genetically Induced Pulmonary Emphysema.

Authors: Joseph Balnis; Lisa A Drake; Diane V Singer; Catherine E Vincent; Tanner C Korponay; Jeanine D'Armiento; Chun Geun Lee; Jack A Elias; Harold A Singer; Ariel Jaitovich
Journal: Am J Respir Cell Mol Biol Date: 2022-06 Impact factor: 7.748

6. SDH Subunit C Regulates Muscle Oxygen Consumption and Fatigability in an Animal Model of Pulmonary Emphysema.

Authors: Joseph Balnis; Lisa A Drake; Catherine E Vincent; Tanner C Korponay; Diane V Singer; David Lacomis; Chun Geun Lee; Jack A Elias; David Jourd'heuil; Harold A Singer; Ariel Jaitovich
Journal: Am J Respir Cell Mol Biol Date: 2021-09 Impact factor: 6.914