Person: Lee, Kathleen
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Lee
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Kathleen
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Lee, Kathleen
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Publication Thymic Stromal Lymphopoietin Controls Prostaglandin D2 Generation in Aspirin-Exacerbated Respiratory Disease(Elsevier, 2016-02) Feng, C; Lee, Kathleen; Lai, James; Bhattacharyya, Neil; Israel, Esther; Boyce, JA; Laidlaw, TM; Buchheit, Kathleen; Cahill, Katherine; Katz, Howard; Murphy, KatherineBackground: Prostaglandin D2 (PGD2) is the dominant cyclooxygenase product of mast cells and is an effector of aspirin-induced respiratory reactions in aspirin-exacerbated respiratory disease (AERD). Objective: We evaluated the role of the innate cytokine thymic stromal lymphopoietin (TSLP) acting on mast cells to generate PGD2 and facilitate tissue eosinophilia and nasal polyposis in AERD. Methods: Urinary eicosanoids were measured in aspirin-tolerant controls and patients with AERD. Nasal polyp specimens from subjects with AERD and chronic rhinosinusitis were analyzed via qPCR, western blot, and immunohistochemistry. Human cord blood-derived and peripheral blood-derived mast cells were stimulated with TSLP in vitro to assess PGD2 generation. Results: Urinary levels of a stable PGD2 metabolite (uPGD-M) were 2-fold higher in subjects with AERD relative to controls, and increased further during aspirin-induced reactions. Peak uPGD-M levels during aspirin reactions correlated with reductions in blood eosinophil counts and lung function, and with increases in nasal congestion. Mast cells sorted from nasal polyps expressed PGD2 synthase (hPGDS) mRNA at higher levels than did eosinophils from the same tissue. Whole nasal polyp TSLP mRNA expression correlated strongly with mRNA encoding hPGDS (r = .75), the mast cell-specific marker carboxypeptidase A3 (r = .74), and uPGD-M (r=0.74). The cleaved, active form of TSLP was increased in AERD nasal polyps relative to aspirin-tolerant controls. Recombinant TSLP induced PGD2 generation by cultured human mast cells. Conclusions: Our study demonstrates that mast cell-derived PGD2 is a major effector of type 2 immune responses driven by TSLP, and suggests that dysregulation of this innate system contributes significantly to the pathophysiology of AERD.