Matthew E. Poynter scite author profile

In aged mice, the redox-regulated transcription factor nuclear factor-B (NF-B) becomes constitutively active in many tissues, as well as in cells of the hematopoietic system. This oxidative stress-induced activity promotes the production of a number of pro-inflammatory cytokines, which can contribute to the pathology of many disease states associated with aging. The administration to aged mice of agents capable of activating the ␣ isoform of the peroxisome proliferator-activated receptor (PPAR␣) was found to restore the cellular redox balance, evidenced by a lowering of tissue lipid peroxidation, an elimination of constitutively active NF-B, and a loss in spontaneous inflammatory cytokine production. Aged animals bearing a null mutation in PPAR␣ failed to elicit these changes following treatment with PPAR␣ activators, but remained responsive to vitamin E supplementation. Aged C57BL/6 mice were found to express reduced transcript levels of PPAR␣ and the peroxisomeassociated genes acyl-CoA oxidase and catalase. Supplementation of these aged mice with PPAR␣ activators or with vitamin E caused elevations in these transcripts to levels seen in young animals. Our results suggest that PPAR␣ and the genes under its control play a role in the evolution of oxidative stress excesses observed in aging.

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Effects of obesity and bariatric surgery on airway hyperresponsiveness, asthma control, and inflammation

Dixon

Pratley

Forgione

et al. 2011

Journal of Allergy and Clinical Immunology

368

295

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Background Asthma in obese individuals is poorly understood, these patients are often refractory to standard therapy. Objectives To gain insights into the pathogenesis and treatment of asthma in obese individuals by determining how obesity and bariatric surgery affect asthma control, airway hyperresponsiveness and markers of asthmatic inflammation. Methods A prospective study of (i) asthmatic and non-asthmatic bariatric surgery patients compared at baseline, and (ii) asthmatic patients followed for 12 months after bariatric surgery. Results We studied 23 asthmatic and 21 non-asthmatic patients undergoing bariatric surgery. At baseline, asthmatics had lower FEV1 and FVC, and lower levels of lymphocytes in bronchoalveolar lavage. Following surgery, asthmatic participants experienced significant improvements in asthma control (asthma control score 1.55 to 0.74, p < 0.0001) and asthma quality of life (4.87 to 5.87, p < 0.0001). Airways responsiveness to methacholine improved significantly (PC20 3.9 to 7.28, p = 0.03). There was a statistically significant interaction between IgE status and change in airways responsiveness (p for interaction term = 0.01), improvement in AHR was significantly related to change in BMI in those with normal IgE (p = 0.02, R2 = 0.46). The proportion of lymphocytes in bronchoalveolar lavage and production of cytokines from activated peripheral blood CD4+ T cells increased significantly. Conclusions Bariatric surgery improves airway hyperresponsiveness in obese asthmatics with normal serum IgE. Weight loss has dichotomous effects on airway physiology and T cell function typically involved in the pathogenesis of asthma, suggesting that obesity produces a unique phenotype of asthma that will require a distinct therapeutic approach.

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Serum Amyloid A Activates the NLRP3 Inflammasome and Promotes Th17 Allergic Asthma in Mice

et al. 2011

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Interleukin (IL)-1β is a cytokine critical to several inflammatory diseases in which pathogenic TH17 responses are implicated. Activation of the NLRP3 inflammasome by microbial and environmental stimuli can enable the caspase-1 dependent processing and secretion of IL-1β. The acute phase protein serum amyloid A (SAA) is highly induced during inflammatory responses, wherein it participates in systemic modulation of innate and adaptive immune responses. Elevated levels of IL-1β, SAA, and IL-17 are present in subjects with severe allergic asthma, yet the mechanistic relationship between these mediators has yet to be identified. Herein, we demonstrate that Saa3 is expressed in the lung of mice exposed to several mixed Th2/Th17-polarizing allergic sensitization regimens. SAA instillation into the lungs elicits robust TLR2-, MyD88-, and IL-1-dependent pulmonary neutrophilic inflammation. Furthermore, SAA drives production of IL-1α, IL-1β, IL-6, IL-23, and PGE2, causes dendritic cell maturation, and requires TLR2, MyD88, and the NLRP3 inflammasome for secretion of IL-1β by dendritic cells and macrophages. CD4+ T cells polyclonally stimulated in the presence of conditioned media from SAA-exposed dendritic cells produced IL-17 and the capacity of polyclonally-stimulated splenocytes to secrete IL-17 is dependent upon IL-1, TLR2, and the NLRP3 inflammasome. Additionally, in a model of allergic airway inflammation, administration of SAA to the lungs functions as an adjuvant to sensitize mice to inhaled ovalbumin, resulting in leukocyte influx after antigen challenge and a predominance of IL-17 production from restimulated splenocytes that is dependent upon IL-1 receptor signaling.

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Bone Marrow‐Derived Mesenchymal Stromal Cells Inhibit Th2‐Mediated Allergic Airways Inflammation in Mice

et al. 2011

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Bone marrow-derived mesenchymal stromal cells (BMSCs) mitigate inflammation in mouse models of acute lung injury. However, specific mechanisms of BMSC actions on CD4 T lymphocyte-mediated inflammation in vivo remain poorly understood. Limited data suggests promotion of Th2 phenotype in models of Th1-mediated diseases. However whether this might alleviate or worsen Th2-mediated diseases such as allergic asthma is unknown. To ascertain the effects of systemic administration of BMSCs in a mouse model of Th2-mediated allergic airways inflammation, ovalbumin-induced allergic airways inflammation was induced in wild type C57BL/6 and BALB/c mice as well as in IFNγ receptor null mice. Effects of systemic administration during antigen sensitization of either syngeneic or allogeneic BMSC on airways hyper-reactivity, lung inflammation, antigen-specific CD4 T lymphocytes, and serum immunoglobulins were assessed. Both syngeneic and allogeneic BMSCs inhibited airways hyper-reactivity and lung inflammation through a mechanism partly dependent on IFNγ. However, contrary to existing data, BMSCs did not affect antigen-specific CD4 T lymphocyte proliferation but rather promoted Th1 phenotype in vivo as assessed by both ova-specific CD4 T lymphocyte cytokine production and ova-specific circulating immunoglobulins. BMSCs treated to prevent release of soluble mediators and a control cell population of primary dermal skin fibroblasts only partly mimicked the BMSC effects and in some cases worsened inflammation. In conclusion, BMSCs inhibit Th2-mediated allergic airways inflammation by influencing antigen-specific CD4 T lymphocyte differentiation. Promotion of a Th1 phenotype in antigen-specific CD4 T lymphocytes by BMSCs is sufficient to inhibit Th2-mediated allergic airways inflammation through an IFNγ-dependent process.

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