Jiao Cao scite author profile

Background: Caveolin-1 regulates cellular antioxidant capacity, but mechanisms remain unknown. Results: Caveolin-1 interacts with Nrf2 and suppresses its transcriptional activity and down-regulates cellular antioxidant enzymes. Conclusion: Caveolin-1 regulates cellular antioxidant capacity through interaction with Nrf2. Significance: Clarifying how caveolin-1 regulates cellular antioxidant capacity and identifying a novel target to establish the contribution of oxidative stress to human pathologies.

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CD100–Plexin-B2 Promotes the Inflammation in Psoriasis by Activating NF-κB and the Inflammasome in Keratinocytes

Zhang

Xiao

Dang

et al. 2018

Journal of Investigative Dermatology

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PlxnB2 and its ligand, CD100, were originally identified as axon-guidance molecules that function during neuronal development; however, studies also showed that CD100-plexins participate in various immune responses. In this study, we found that the expression of PlxnB2 on keratinocytes was specifically increased in lesional skin of psoriasis patients but not atopic dermatitis. Levels of soluble CD100 and membrane-bound CD100 were elevated in sera of psoriasis patients and on keratinocytes of psoriatic skin, respectively. By binding to PlxnB2, soluble CD100 promoted the production of CXCL-1, CCL-20, IL-1β, and IL-18 by keratinocytes and activated the NLRP3 inflammasome. Moreover, CD100-PlxnB2 stimulated the NF-κB signaling pathway in keratinocytes through activation of small GTPase RhoA and Rac1. Our data showed that cooperation of CD100 and PlxnB2 promoted the inflammatory responses in keratinocytes by activating NF-κB and the NLRP3 inflammasome and participated in the pathogenesis of psoriasis. CD100/PlxnB2 might be a potential therapeutic target for psoriasis.

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Quercetin inhibits Mrgprx2-induced pseudo-allergic reaction via PLCγ-IP3R related Ca2+ fluctuations

Ding

Che

et al. 2019

International Immunopharmacology

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Typical antimicrobials induce mast cell degranulation and anaphylactoid reactions via MRGPRX2 and its murine homologue MRGPRB2

et al. 2017

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Mast cells are unique immune cells that function as sentinels in host defence reactions, including immediate hypersensitivity responses and allergic responses. The mast cell-specific receptor named MAS-related G protein-coupled receptor X2 (MRGPRX2) triggers mast-cell degranulation, a key process in anaphylactoid reactions. It is widely observed that antimicrobials can induce pseudo-allergic reactions (i.e. IgE-independent mechanism) with symptoms ranging from skin inflammation to life-threatening systemic anaphylaxis. However, their direct involvement and the mechanisms underlying anaphylactoid reactions caused by antimicrobials have not been demonstrated. Structurally different antimicrobials were screened by Ca imaging using MRGPRX2 overexpressing HEK293 cells. MRGPRX2 related anaphylactoid reactions induced by these components were investigated by body temperature drop and mast cell degranulation assays. We showed that MRGPRX2 is involved in allergic-like reactions to three types of antimicrobials in a dose-dependent manner. However, mast cells lacking the receptor show reduced degranulation. Furthermore, mice without MAS-related G protein-coupled receptor B2 (the orthologous gene of MRGPRX2) exhibited reduced substance-induced inflammation. Interestingly, β-lactam and antiviral nucleoside analogues did not induce anaphylactic reactions, which were also observed in vitro. These results should alarm many clinicians that such drugs might induce anaphylactoid reactions and provide guidance on safe dosage of these drugs.

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Jiao Cao

Caveolin-1 Inhibits Expression of Antioxidant Enzymes through Direct Interaction with Nuclear Erythroid 2 p45-related Factor-2 (Nrf2)

CD100–Plexin-B2 Promotes the Inflammation in Psoriasis by Activating NF-κB and the Inflammasome in Keratinocytes

Quercetin inhibits Mrgprx2-induced pseudo-allergic reaction via PLCγ-IP3R related Ca2+ fluctuations

Typical antimicrobials induce mast cell degranulation and anaphylactoid reactions via MRGPRX2 and its murine homologue MRGPRB2

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