Allergic disorders are a major global health concern affecting 150 million people worldwide. Recently, epithelial cells have emerged as central participants in the pathogenesis of allergic inflammation. Defining the key epithelial drivers of the development, persistence, and progression of allergic inflammation is the focus of this application. Although epithelial cells are increasingly recognized as critical participants in the initiation and propagation of allergic inflammation, therapies that specifically target the epithelium are lacking. There are substantial gaps in understanding the mechanisms by which epithelial pathways converge to promote allergic inflammation that must be filled before interventions can be designed. Our U19 AADCRC proposal is designed to help fill this critical knowledge gap. We are uniquely poised for the proposed studies because of resources and collaborations that we have developed over the past 2 decades. Through the synergistic projects, we will explore the immunological mechanisms, which underpin initiation, persistence, and progression of allergic disease and provide novel insights into a key unanswered question in the allergy field: Why is allergic inflammation restricted to one tissue in some cases, while it progresses to involve additional tissues in other individuals? The projects are: Project 1 ? To elucidate endotypes of AD that are predictive of progression to asthma and dissect the mechanistic basis of the contribution of epithelial kinesin family member 3A (KIF3A) to allergic inflammation and disease persistence/progression. Project 2 ? To determine how protease/protease inhibitor imbalance promotes allergic inflammation ? dissect the mechanistic basis by which the epithelial-derived protease inhibitor serine protease inhibitor Kazal-type 7 (SPINK7) promotes allergic inflammation. Project 3 ?To determine whether specific heterophilic protein adhesion events between Staphylococcus spp colonizing AD but not normal skin facilitate inter-species synergism, leading to strong mixed biofilms, which promote inflammation, compromise skin barrier function, and result in more severe AD and progression to asthma.
Allergic disorders are a major public health burden worldwide. Although epithelial cells are increasingly recognized as critical participants in the pathogenesis of allergic inflammation, there is currently no therapy that specifically targets the epithelium. The design of epithelial-specific therapy would be an important advance in the treatment of allergic disorders.
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