Ning Ma scite author profile

Reactive oxygen and nitrogen species have been implicated in diverse pathophysiological conditions, including inflammation, neurodegenerative diseases and cancer. Accumulating evidence indicates that oxidative damage to biomolecules including lipids, proteins and DNA, contributes to these diseases. Previous studies suggest roles of lipid peroxidation and oxysterols in the development of neurodegenerative diseases and inflammation-related cancer. Our recent studies identifying and characterizing carbonylated proteins reveal oxidative damage to heat shock proteins in neurodegenerative disease models and inflammation-related cancer, suggesting dysfunction in their antioxidative properties. In neurodegenerative diseases, DNA damage may not only play a role in the induction of apoptosis, but also may inhibit cellular division via telomere shortening. Immunohistochemical analyses showed co-localization of oxidative/nitrative DNA lesions and stemness markers in the cells of inflammation-related cancers. Here, we review oxidative stress and its significant roles in neurodegenerative diseases and cancer.

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A novel IL‐23p19/Ebi3 (IL‐39) cytokine mediates inflammation in Lupus‐like mice

Wang

et al. 2016

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Interleukin-12 family cytokines have emerged as critical regulators of immunity with some members (IL-12, IL-23) associated with disease pathogenesis while others (IL-27sue injury by promoting the expansion of regulatory B and T-cell subsets [2,3].Discovery of IL-23 in 2000 [4] led to the reevaluation of IL-12 and IL-23 in autoimmune diseases. For example, therapeutic targeting of IL-12p40 decreases pathology in many mouse models of autoimmune diseases [5], while disease is exacerbated in IL-12p35-deficient mice [6,7]. Thus, IL-23 rather than IL-12 was * These authors contributed equally to this work as first authors.* * These authors contributed equally to this work as senior authors. Eur. J. Immunol. 2016. 46: 1343-1350 found to be the critical cytokine for autoimmune inflammation including experimental immune-mediated disease [6][7][8][9][10]. Currently, at least ten therapeutic agents targeting IL-23 are being tested in the clinic for more than 17 human immune-mediated diseases [11]. Both IL-27 and IL-35 have immune-suppressive activities and are also cytokines with strikingly diverse influences on the immune response so that viable therapeutic targets may also be exploited for treatment of human inflammatory diseases [12,13]. Thus, understanding immunobiology of IL-12 family cytokines would undoubtedly provide valuable knowledge that can be exploited therapeutically. The IL-12 family cytokines are α/β heterodimers consisting of one α subunit (IL-23p19, IL-27p28, IL-12p35) and one β chain (IL-12p40, Ebi3) [14,15]. Although there are currently four known members in the family, the predictable range of combinations is six and it is conceivable that additional pairings such as IL-23p19/Ebi3 are possible [12,[14][15][16][17]. In this study, we sought to discover additional IL-12 members that might exist in nature. By combining different alpha and beta IL-12 subunit proteins in vitro we detected a novel stable p19/Ebi3 heterodimeric complex by immunoprecipitation. We have characterized the p19/Ebi3 cytokine (IL-39) and demonstrated that it possesses biological activities in vitro and in vivo. Results IL-23p19 (p19) and Ebi3 form a composite factor (IL-39)To examine whether p19 can form a stable complex with Ebi3, we mixed equal amounts of the two proteins and immunoprecipitation (IP)/Western blot analyses revealed formation of a stable human p19/Ebi3 complex (Fig. 1A). We could not detect the p19/Ebi3 following IP with isotype IgG or anti-c-Jun antibody, providing suggestive evidence for potential bona fide p19/Ebi3 cytokine. To confirm our finding in another animal species, we genetically engineered and expressed mouse p19 and Ebi3 subunits in CHO cells (Fig. 1B). IP of supernatants derived from transfectants with anti-p19 mAb and followed by Western blot analysis using anti-Ebi3 mAb confirmed coexpression p19 and Ebi3 and formation of a stable p19/Ebi3 heterodimer (Fig. 1C). We further confirmed this observation by reciprocal IP with anti-Ebi3 mAb and Western blotting with anti-p19 mAb and the p19/Ebi3 comple...

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Mechanism of NO-mediated oxidative and nitrative DNA damage in hamsters infected with Opisthorchis viverrini: a model of inflammation-mediated carcinogenesis

et al. 2004

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Crosstalk between DNA Damage and Inflammation in the Multiple Steps of Carcinogenesis

Kawanishi

Ohnishi

et al. 2017

IJMS

218

162

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Inflammation can be induced by chronic infection, inflammatory diseases and physicochemical factors. Chronic inflammation is estimated to contribute to approximately 25% of human cancers. Under inflammatory conditions, inflammatory and epithelial cells release reactive oxygen (ROS) and nitrogen species (RNS), which are capable of causing DNA damage, including the formation of 8-oxo-7,8-dihydro-2′-deoxyguanosine and 8-nitroguanine. We reported that 8-nitroguanine was clearly formed at the sites of cancer induced by infectious agents including Helicobacter pylori, inflammatory diseases including Barrett’s esophagus, and physicochemical factors including asbestos. DNA damage can lead to mutations and genomic instability if not properly repaired. Moreover, DNA damage response can also induce high mobility group box 1-generating inflammatory microenvironment, which is characterized by hypoxia. Hypoxia induces hypoxia-inducible factor and inducible nitric oxide synthase (iNOS), which increases the levels of intracellular RNS and ROS, resulting DNA damage in progression with poor prognosis. Furthermore, tumor-producing inflammation can induce nuclear factor-κB, resulting in iNOS-dependent DNA damage. Therefore, crosstalk between DNA damage and inflammation may play important roles in cancer development. A proposed mechanism for the crosstalk may explain why aspirin decreases the long-term risk of cancer mortality.

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Ning Ma

Neutrophil to lymphocyte ratio (NLR) and platelet to lymphocyte ratio (PLR) were useful markers in assessment of inflammatory response and disease activity in SLE patients

Oxidative Stress and Its Significant Roles in Neurodegenerative Diseases and Cancer

A novel IL‐23p19/Ebi3 (IL‐39) cytokine mediates inflammation in Lupus‐like mice

Mechanism of NO-mediated oxidative and nitrative DNA damage in hamsters infected with Opisthorchis viverrini: a model of inflammation-mediated carcinogenesis

Crosstalk between DNA Damage and Inflammation in the Multiple Steps of Carcinogenesis

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