Christine M. DeStephan scite author profile

Christine M. DeStephan

2Publications

40Citation Statements Received

107Citation Statements Given

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Affiliations

University of Vermont, Temple University Hospital, Children's Hospital of Philadelphia

Publications

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Superantigen Presentation by Airway Smooth Muscle to CD4+ T Lymphocytes Elicits Reciprocal Proasthmatic Changes in Airway Function

Veler

Fatma

et al. 2007

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Microbial products serving as superantigens (SAgs) have been implicated in triggering various T cell-mediated chronic inflammatory disorders, including severe asthma. Given earlier evidence demonstrating that airway smooth muscle (ASM) cells express MHC class II molecules, we investigated whether ASM can present SAg to resting CD4+ T cells, and further examined whether this action reciprocally elicits proasthmatic changes in ASM responsiveness. Coincubation of CD4+ T cells with human ASM cells pulsed with the SAg, staphylococcal enterotoxin A (SEA), elicited adherence and clustering of class II and CD3 molecules at the ASM/T cell interface, indicative of immunological synapse formation, in association with T cell activation. This ASM/T cell interaction evoked up-regulated mRNA expression and pronounced release of the Th2-type cytokine, IL-13, into the coculture medium, which was MHC class II dependent. Moreover, when administering the conditioned medium from the SEA-stimulated ASM/T cell cocultures to isolated naive rabbit ASM tissues, the latter exhibited proasthmatic-like changes in their constrictor and relaxation responsiveness that were prevented by pretreating the tissues with an anti-IL-13 neutralizing Ab. Collectively, these observations are the first to demonstrate that ASM can present SAg to CD4+ T cells, and that this MHC class II-mediated cooperative ASM/T cell interaction elicits release of IL-13 that, in turn, evokes proasthmatic changes in ASM constrictor and relaxant responsiveness. Thus, a new immuno-regulatory role for ASM is identified that potentially contributes to the pathogenesis of nonallergic (intrinsic) asthma and, accordingly, may underlie the reported association between microbial SAg exposure, T cell activation, and severe asthma.

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NKp30 Ligation Induces Rapid Activation of the Canonical NF-κB Pathway in NK Cells

Pandey

DeStephan

Madge

et al. 2007

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Studies of patients with congenital immunodeficiency due to mutation of the NF-κB essential modulator (NEMO) gene have demonstrated that NEMO integrity is required for NK cell cytotoxicity. Thus, we have studied the physiology of NF-κB activation in NK cells during the cytolytic program. In resting ex vivo human NK cells or cell lines, IκB was degraded after 10 min exposure to PMA and ionomycin, or TNF and was maximally degraded by 30 min. Ligation of several NK cell activation receptors including NKp30 induced a similar response and was blocked by pretreatment with the proteosome inhibitor MG132. There was no short-term effect on p100 processing, the signature of noncanonical NF-κB activation. NK cell IκB degradation corresponded to increases in nuclear NF-κB as detected by EMSA. Supershift of stimulated NK cells and fluorescence microscopy of individual NK cells in cytolytic conjugates demonstrated that the p65/p50 heterodimer was the primary NF-κB used. NF-κB function was evaluated in NK92 cells transduced with a κB GFP reporter, and their conjugation with K562 cells or ligation of NKp30 ligation resulted in rapid GFP accumulation. The latter was prevented by the Syk inhibitor piceatannol. Thus, NK cell activation signaling specifically induces transcriptional activation and synthesis of new NF-κB dependent proteins during the initiation of cytotoxicity.

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