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Expression of Semaphorin 3E in Asthma and its role in Allergic Airway Disease

Asthma is a chronic condition characterized by variable airflow obstruction, bronchial hyper-responsiveness, airway inflammation and remodeling. In spite of tremendous advances, the regulatory mechanisms controlling these pathological features have not yet been completely addressed. From an immunological perspective, type 2 inflammation and eosinophilic infiltration are the most striking hallmarks of asthma. At physiological level, structural changes such as increase in smooth muscle mass take the center stage which is usually associated with clinical measures of asthma. There might be some regulatory mediators capable of tuning airway inflammation and remodeling under homeostatic conditions but abrogated in asthmatic conditions.
Semaphorin 3E (Sema3E) is an axon guidance molecule that is ubiquitously expressed and plays diverse roles in structural and inflammatory cells such as regulation of cell migration, proliferation and angiogenesis. However, its role in clinical and experimental asthma remains unclear. In this thesis, I have set out to uncover the expression and function of Sema3E in allergic asthma. It is generally hypothesized that Sema3E is down-regulated in allergic asthma which orchestrates the function of inflammatory (dendritic cells and neutrophils) and structural (airway smooth muscle) cells. Replenishment of Sema3E, which is suppressed under asthmatic conditions, could confer protection against allergic asthma by modulation of cellular functions.
I began by comparing the expression of Sema3E between allergic asthmatics and healthy subjects. A remarkable down-regulation of Sema3E under asthmatic patients was observed which was further confirmed in a mouse model of the disease. Decreased expression of Sema3E was specifically demonstrated on bronchial epithelial cells obtained from asthmatic patients at both mRNA and protein levels.
To address the function of Sema3E in allergic asthma in vivo, I extended my studies to mouse models of the disease and demonstrated that Sema3e gene deletion results in exacerbated allergic asthma pathology induced by allergen exposure. To investigate the translational relevance of my findings, I performed treatment of an asthmatic mouse model with exogenous Sema3E in which its intranasal administration attenuated airway inflammation, remodeling and hyper-responsiveness. The mechanism underlying Sema3E’s role in pathogenesis of allergic asthma was extensively studied indicating a crucial role of this mediator in modulation of dendritic cells and neutrophils functions. Our data demonstrated that both dendritic cells and neutrophils express the Sema3E high affinity receptor, PlexinD1, which makes them responsive to Sema3E treatment. Then, I studied expression and function of PlexinD1 on human airway smooth muscle (ASM) cells. I found that PlexinD1 surface expression was reduced on ASM cells from asthmatic patients. Treatment of ASM cells with Sema3E inhibited their proliferation and migration as the characteristic feature of airway remodeling. Suppression of Rac1 GTPase activity and phosphorylation of Akt/PI3K and ERK/MAPK were found as signaling mechanisms underlying Sema3E’s inhibitory effects. Together, these findings show that Sema3E thereby appears as a novel regulatory mediator, upstream of pro-allergic events, suggestive of a new approach to attenuate allergic asthma deficits. / May 2016

Identiferoai:union.ndltd.org:MANITOBA/oai:mspace.lib.umanitoba.ca:1993/31121
Date01 February 2016
CreatorsMovassagh, Hesamaldin
ContributorsSoussi Gounni, Abdelilah (Immunology), Marshall, Aaron (Immunology) Gibson, Spencer (Immunology) Karimi, Soheila (Physiology and Pathophysiology) Martin, Jim (McGill University)
Source SetsUniversity of Manitoba Canada
Detected LanguageEnglish

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