Microfibrillar-associated protein 4 modulates airway smooth muscle cell phenotype in experimental asthma

BackgroundRecently, several proteins of the extracellular matrix have been characterised as active contributors to allergic airway disease. Microfibrillar-associated protein 4 (MFAP4) is an extracellular matrix protein abundant in the lung, whose biological functions remain poorly understood. In the...

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Published inThorax Vol. 70; no. 9; pp. 862 - 872
Main Authors Pilecki, Bartosz, Schlosser, Anders, Wulf-Johansson, Helle, Trian, Thomas, Moeller, Jesper B, Marcussen, Niels, Aguilar-Pimentel, Juan A, de Angelis, Martin Hrabe, Vestbo, Jorgen, Berger, Patrick, Holmskov, Uffe, Sorensen, Grith L
Format Journal Article
LanguageEnglish
Published England BMJ Publishing Group LTD 01.09.2015
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Summary:BackgroundRecently, several proteins of the extracellular matrix have been characterised as active contributors to allergic airway disease. Microfibrillar-associated protein 4 (MFAP4) is an extracellular matrix protein abundant in the lung, whose biological functions remain poorly understood. In the current study we investigated the role of MFAP4 in experimental allergic asthma.MethodsMFAP4-deficient mice were subjected to alum/ovalbumin and house dust mite induced models of allergic airway disease. In addition, human healthy and asthmatic primary bronchial smooth muscle cell cultures were used to evaluate MFAP4-dependent airway smooth muscle responses.ResultsMFAP4 deficiency attenuated classical hallmarks of asthma, such as eosinophilic inflammation, eotaxin production, airway remodelling and hyperresponsiveness. In wild-type mice, serum MFAP4 was increased after disease development and correlated with local eotaxin levels. MFAP4 was expressed in human bronchial smooth muscle cells and its expression was upregulated in asthmatic cells. Regarding the underlying mechanism, we showed that MFAP4 interacted with integrin αvβ5 and promoted asthmatic bronchial smooth muscle cell proliferation and CCL11 release dependent on phosphatidyloinositol-3-kinase but not extracellular signal-regulated kinase pathway.ConclusionsMFAP4 promoted the development of asthmatic airway disease in vivo and pro-asthmatic functions of bronchial smooth muscle cells in vitro. Collectively, our results identify MFAP4 as a novel contributor to experimental asthma, acting through modulation of airway smooth muscle cells.
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ISSN:0040-6376
1468-3296
DOI:10.1136/thoraxjnl-2014-206609