Young Jun Chung scite author profile

Transient receptor potential vanilloid 1 (TRPV1), which has been identified as a molecular target for the activation of sensory neurons by various painful stimuli, was reported to regulate the signaling and activation of CD4+ T cells. However, the role of TRPV1 in CD4+ T cell in allergic rhinitis remains poorly understood. In this study, TRPV1 expression was localized in CD4+ T cells. Both knockout and chemical inhibition of TRPV1 suppressed Th2/Th17 cytokine production in CD4 T cells and Jurkat T cells, respectively, and can suppress T cell receptor signaling pathways including NF-κB, MAP kinase, and NFAT. In TRPV1 knockout allergic rhinitis (AR) mice, eosinophil infiltration, Th2/Th17 cytokines in the nasal mucosa, and total and ova-specific IgE levels in serum decreased, compared with wild-type AR mice. The TRPV1 antagonists, BCTC or theobromine, showed similar inhibitory immunologic effects on AR mice models. In addition, the number of TRPV1+/CD4+ inflammatory cells increased in the nasal mucosa of patients with AR, compared with that of control subjects. Thus, TRPV1 activation on CD4+ T cells is involved in T cell receptor signaling, and it could be a novel therapeutic target in AR.

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Intranasal Helicobacter pylori colonization does not correlate with the severity of chronic rhinosinusitis

Kim

Dhong

Chung

et al. 2007

Otolaryngol.--head neck surg.

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Stereochemical Control of Hairpin Formation in β-Peptides Containing Dinipecotic Acid Reverse Turn Segments [J. Am. Chem. Soc. 2000, 122, 3995−4004].

Chung¹,

Huck²,

Christianson³

et al. 2001

J. Am. Chem. Soc.

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4002, right column, 3rd full paragraph, 2nd line: (1R)-(+)-10-Camphorsulfonic acid should be replaced by (1R)-(-)-10-Camphorsulfonic acid. Page 4002, right column, 4th full paragraph, 1st and 2nd lines: (1R)-(+)-10-camphorsulfonic acid should be replaced by (1R)-(-)-camphorsulfonic acid. Page 4003, left column, 1st full paragraph, 2nd line: (1R)-(+)-10-camphorsulfonic acid should be replaced by (1S)-(+)-10-camphorsulfonic acid.The authors thank Tony Tang of the University of California-Berkeley for pointing out these typographical errors.

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Effects of Wnt signaling on epithelial to mesenchymal transition in chronic rhinosinusitis with nasal polyp

Bae

Ryu

Kim

et al. 2020

Thorax

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BackgroundEpithelial to mesenchymal transition (EMT) is associated with the pathophysiology of chronic rhinosinusitis with nasal polyp (CRSwNP). Wnt signaling is causative for EMT, whereas the mechanism in CRSwNP is not fully understood.ObjectiveWe sought to evaluate the role of Wnt signaling in EMT of CRSwNP using a murine nasal polyp (NP) model and human tissues.MethodsInflammatory markers and EMT-related molecules were evaluated in NP models using adenomatosis polyposis coli (Apc)Min/+ mice with activated Wnt signaling and NP models treated with Wnt signaling inhibitor, indocyanine green-001 (ICG-001). EMT markers and Wnt signaling-associated mediators were analysed using human sinonasal tissues from control subjects and CRSwNP patients.ResultsApcMin/+ mice-induced NPs exhibited more frequent polypoid lesions and upregulation of Wnt-related molecules, including nuclear β-catenin, WNT3A and cyclin D1. Markers of EMT were significantly overexpressed in the ApcMin/+ NP mice (p<0.001 for E-cadherin and α-smooth muscle actin), and interleukin (IL)-17A+ cells and neutrophilic infiltration were increased in ApcMin/+ NP mice (p<0.001). Inhibition of Wnt signaling via ICG-001 resulted in significantly decreased nasal polypoid lesions (p<0.001), EMT-related markers (p=0.019 for E-cadherin and p=0.002 for vimentin) and the mRNA levels of IL-4 (p<0.001) and IL-17A (p=0.004) compared with the positive control group. Finally, nuclear β-catenin (p=0.042) was significantly increased compared with the control, and the expression levels of Wnt ligands and receptors were upregulated in human NP tissues (p=0.045 for WNT3A and p=0.042 for FZD2), suggesting increased Wnt signaling and EMT in CRSwNP.ConclusionWnt signaling may contribute to the pathogenesis of NPs through EMT. Therefore, inhibition of Wnt signaling may be a potential therapeutic strategy for patients with CRSwNP.

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Inhibition of IRF4 in dendritic cells by PRR-independent and -dependent signals inhibit Th2 and promote Th17 responses

Lee

Zhang

Chung

et al. 2020

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Cyclic AMP (cAMP) is involved in many biological processes but little is known regarding its role in shaping immunity. Here we show that cAMP-PKA-CREB signaling (a pattern recognition receptor [PRR]-independent mechanism) regulates conventional type-2 Dendritic Cells (cDC2s) in mice and reprograms their Th17-inducing properties via repression of IRF4 and KLF4, transcription factors essential for cDC2-mediated Th2 induction. In mice, genetic loss of IRF4 phenocopies the effects of cAMP on Th17 induction and restoration of IRF4 prevents the cAMP effect. Moreover, curdlan, a PRR-dependent microbial product, activates CREB and represses IRF4 and KLF4, resulting in a pro-Th17 phenotype of cDC2s. These in vitro and in vivo results define a novel signaling pathway by which cDC2s display plasticity and provide a new molecular basis for the classification of novel cDC2 and cDC17 subsets. The findings also reveal that repressing IRF4 and KLF4 pathway can be harnessed for immuno-regulation.

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Young Jun Chung

Inverted papilloma of the nasal cavity and paranasal sinuses: A Korean multicenter study

Treatment outcomes of sinonasal malignant melanoma: a Korean multicenter study

Cigarette Smoke Promotes Eosinophilic Inflammation, Airway Remodeling, and Nasal Polyps in a Murine Polyp Model

The role of TRPV1 in the CD4+ T cell-mediated inflammatory response of allergic rhinitis

Intranasal Helicobacter pylori colonization does not correlate with the severity of chronic rhinosinusitis

Stereochemical Control of Hairpin Formation in β-Peptides Containing Dinipecotic Acid Reverse Turn Segments [J. Am. Chem. Soc. 2000, 122, 3995−4004].

Effects of Wnt signaling on epithelial to mesenchymal transition in chronic rhinosinusitis with nasal polyp

Inhibition of IRF4 in dendritic cells by PRR-independent and -dependent signals inhibit Th2 and promote Th17 responses

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