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KCIAmong many factors explaining recent increase in the prevalence of asthma and allergic rhinitis, role of reactive oxygen species (ROS) during development of these diseases is increasingly considered. Due to their highly reactive nature, ROS produced m...
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RISS 인기검색어
부가정보
다국어 초록 (Multilingual Abstract)
Among many factors explaining recent increase in the prevalence of asthma and allergic rhinitis, role of reactive oxygen species (ROS) during development of these diseases is increasingly considered. Due to their highly reactive nature, ROS produced mainly by the phagocyte nicotinamide adenine dinucleotide phosphate oxidase complex have been considered harmful mediators of inflammation for a long time. However, there are an increasing number of findings suggesting that ROS are anti-inflammatory and prevent autoimmune responses and allergic diseases, thus challenging existing dogma. ROS might not only be produced as a mechanism to eradicate invading pathogens, but rather as a means by which to fine-tune the inflam-matory response, depending on when, where and at what amounts they are produced. In this review, the author aim to describe the current findings highlighting ROS as regulators of inflammation, focusing on asthma and allergic rhinitis.
Among many factors explaining recent increase in the prevalence of asthma and allergic rhinitis, role of reactive oxygen species (ROS) during development of these diseases is increasingly considered. Due to their highly reactive nature, ROS produced mainly by the phagocyte nicotinamide adenine dinucleotide phosphate oxidase complex have been considered harmful mediators of inflammation for a long time. However, there are an increasing number of findings suggesting that ROS are anti-inflammatory and prevent autoimmune responses and allergic diseases, thus challenging existing dogma. ROS might not only be produced as a mechanism to eradicate invading pathogens, but rather as a means by which to fine-tune the inflam-matory response, depending on when, where and at what amounts they are produced. In this review, the author aim to describe the current findings highlighting ROS as regulators of inflammation, focusing on asthma and allergic rhinitis.
참고문헌 (Reference)
1 Hultqvist M, "The protective role of ROS in autoimmune disease" 30 (30): 201-208, 2009
2 Bedard K, "The NOX family of ROS-generating NADPH oxidases: physiology and pathophysiology" 87 (87): 245-313, 2007
3 Gelderman KA, "T cell surface redox levels determine T cell reactivity and arthritis susceptibility" 103 (103): 12831-12836, 2006
4 Sanders SP, "Spontaneous oxygen radical production at sites of antigen challenge in allergic subjects" 151 (151): 1725-1733, 1995
5 Lee K, "Spontaneous and aging-dependent development of arthritis in NADPH oxidase 2 deficiency through altered differentiation of CD11b+ and Th/Treg cells" 108 (108): 9548-9553, 2011
6 Vaquero EC, "Reactive oxygen species produced by NAD(P)H oxidase inhibit apoptosis in pancreatic cancer cells" 279 (279): 34643-34654, 2004
7 Arbiser JL, "Reactive oxygen generated by Nox1 triggers the angiogenic switch" 99 (99): 715-720, 2002
8 Chan EC, "Prostacyclin receptor suppresses cardiac fibrosis: role of CREB phosphorylation" 49 (49): 176-185, 2010
9 Lee BW, "Polyarthritis resembling juvenile rheumatoid arthritis in a girl with chronic granulomatous disease" 37 (37): 773-776, 1994
10 Efimova O, "Ncf1 (p47phox) is essential for direct regulatory T cell mediated suppression of CD4+ effector T cells" 6 (6): e16013-, 2011
1 Hultqvist M, "The protective role of ROS in autoimmune disease" 30 (30): 201-208, 2009
2 Bedard K, "The NOX family of ROS-generating NADPH oxidases: physiology and pathophysiology" 87 (87): 245-313, 2007
3 Gelderman KA, "T cell surface redox levels determine T cell reactivity and arthritis susceptibility" 103 (103): 12831-12836, 2006
4 Sanders SP, "Spontaneous oxygen radical production at sites of antigen challenge in allergic subjects" 151 (151): 1725-1733, 1995
5 Lee K, "Spontaneous and aging-dependent development of arthritis in NADPH oxidase 2 deficiency through altered differentiation of CD11b+ and Th/Treg cells" 108 (108): 9548-9553, 2011
6 Vaquero EC, "Reactive oxygen species produced by NAD(P)H oxidase inhibit apoptosis in pancreatic cancer cells" 279 (279): 34643-34654, 2004
7 Arbiser JL, "Reactive oxygen generated by Nox1 triggers the angiogenic switch" 99 (99): 715-720, 2002
8 Chan EC, "Prostacyclin receptor suppresses cardiac fibrosis: role of CREB phosphorylation" 49 (49): 176-185, 2010
9 Lee BW, "Polyarthritis resembling juvenile rheumatoid arthritis in a girl with chronic granulomatous disease" 37 (37): 773-776, 1994
10 Efimova O, "Ncf1 (p47phox) is essential for direct regulatory T cell mediated suppression of CD4+ effector T cells" 6 (6): e16013-, 2011
11 Lambeth JD, "NOX enzymes and the biology of reactive oxygen" 4 (4): 181-189, 2004
12 Mignotte B, "Mitochondria and apoptosis" 252 (252): 1-15, 1998
13 Goswami SK, "Ischemia-reperfusion and cardioprotection: a delicate balance between reactive oxygen species generation and redox homeostasis" 39 (39): 275-289, 2007
14 Kraaij MD, "Induction of regulatory T cells by macrophages is dependent on production of reactive oxygen species" 107 (107): 17686-17691, 2010
15 Kwon HS, "Hyperoxidized peroxiredoxins in peripheral blood mononuclear cells of asthma patients is associated with asthma severity" 90 (90): 502-508, 2012
16 Ogasawara H, "Hydrogen peroxide generation by eosinophils in allergic rhinitis" 18 (18): 133-143, 1991
17 Calhoun WJ, "Enhanced superoxide production by alveolar macrophages and air-space cells, airway inflammation, and alveolar macrophage density changes after segmental antigen bronchoprovocation in allergic subjects" 145 (145): 317-325, 1992
18 Jarjour NN, "Enhanced production of oxygen radicals in asthma" 123 (123): 131-136, 1994
19 Hultqvist M, "Enhanced autoimmunity, arthritis, and encephalomyelitis in mice with a reduced oxidative burst due to a mutation in the Ncf1 gene" 101 (101): 12646-12651, 2004
20 Emelyanov A, "Elevated concentrations of exhaled hydrogen peroxide in asthmatic patients" 120 (120): 1136-1139, 2001
21 Asaba K, "Effects of NADPH oxidase inhibitor in diabetic nephropathy" 67 (67): 1890-1898, 2005
22 Kraaij MD, "Dexamethasone increases ROS production and T cell suppressive capacity by anti-inflammatory macrophages" 49 (49): 549-557, 2011
23 De Ravin SS, "Chronic granulomatous disease as a risk factor for autoimmune disease" 122 (122): 1097-1103, 2008
24 Riediker M, "Air pollutants enhance rhinoconjunctivitis symptoms in pollen-allergic individuals" 87 (87): 311-318, 2001
25 Hultqvist M, "A new arthritis therapy with oxidative burst inducers" 3 (3): e348-, 2006
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