CD151, a laminin receptor showing increased expression in asthmatic patients, contributes to airway hyperresponsiveness through calcium signaling - 18/04/17
on behalf of the
Melbourne Epidemiological Study of Childhood Asthma group
Abstract |
Background |
Airway smooth muscle (ASM) contraction underpins airway constriction; however, underlying mechanisms for airway hyperresponsiveness (AHR) remain incompletely defined. CD151, a 4-transmembrane glycoprotein that associates with laminin-binding integrins, is highly expressed in the human lung. The role of CD151 in ASM function and its relationship to asthma have yet to be elucidated.
Objective |
We sought to ascertain whether CD151 expression is clinically relevant to asthma and whether CD151 expression affects AHR.
Methods |
Using immunohistochemical analysis, we determined the expression of CD151 in human bronchial biopsy specimens from patients with varying asthma severities and studied the mechanism of action of CD151 in the regulation of ASM contraction and bronchial caliber in vitro, ex vivo, and in vivo.
Results |
The number of CD151+ ASM cells is significantly greater in patients with moderate asthma compared with those in healthy nonasthmatic subjects. From loss- and gain-of-function studies, we reveal that CD151 is required for and enhances G protein–coupled receptor (GPCR)–induced peak intracellular calcium release, the primary determinant of excitation-contraction coupling. We show that the localization of CD151 can also be perinuclear/cytoplasmic and offer an explanation for a novel functional role for CD151 in supporting protein kinase C (PKC) translocation to the cell membrane in GPCR-mediated ASM contraction at this site. Importantly, CD151−/− mice are refractory to airway hyperreactivity in response to allergen challenge.
Conclusions |
We identify a role for CD151 in human ASM contraction. We implicate CD151 as a determinant of AHR in vivo, likely through regulation of GPCR-induced calcium and PKC signaling. These observations have significant implications in understanding the mechanism for AHR and the efficacy of new and emerging therapeutics.
Le texte complet de cet article est disponible en PDF.Key words : Airway hyperresponsiveness, airway smooth muscle, asthma, contraction, calcium, CD151, G protein–coupled receptor, integrins, laminin, PKC, tetraspanin
Abbreviations used : AHR, ASM, DMEM, GFP, GPCR, MESCA, OVA, PKC, PMA, siRNA
Plan
| J.K.C.T. is supported by the Deputy President (Research & Technology) start-up grant. A.G.S. is supported by NHMRC project grants #1045372 and #1059665. Part of this work was supported by an operating grant to A.J.H. from the Canadian Institutes of Health Research. A.J.H. is supported by the Canada Research Chairs Program. This research is supported in part by the Singapore Ministry of Health's National Medical Research Council under its IRG scheme (NMRC/1215/2009) and by the Deputy President (Research & Technology) start-up grant (to T.T.). |
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| Disclosure of potential conflict of interest: A. G. Stewart has received research support from NHMRC. T. Tran has received research support from NMRC/1215/2009 and a Deputy President (Research & Technology) Start-up grant. The rest of the other authors declare that they have no relevant conflicts of interest. |
Vol 139 - N° 1
P. 82 - janvier 2017 Retour au numéro
Article précédent
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