Variants in the interleukin 8 gene and the response to inhaled bronchodilators in cystic fibrosis – ScienceOpen
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      Variants in the interleukin 8 gene and the response to inhaled bronchodilators in cystic fibrosis

      Jornal de pediatria
      Elsevier BV

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          Essential involvement of interleukin-8 (IL-8) in acute inflammation.

          Neutrophil infiltration into inflammatory sites is one of the hallmarks of acute inflammation. Locally produced chemotactic factors are presumed to mediate the sequence of events leading to the infiltration at inflammatory sites. Interleukin-8 (IL-8), a novel leukocyte chemotactic activating cytokine (chemokine), is produced by various types of cells upon stimulation with inflammatory stimuli and exerts a variety of functions on leukocytes, particularly, neutrophils in vitro. However, no definitive evidence has been presented on its role in recruiting and activating neutrophils in the lesions of various types of inflammatory reactions. We administered a highly specific neutralizing antibody against IL-8 in several types of acute inflammatory reactions, including lipopolysaccharide (LPS)-induced dermatitis, LPS/IL-1-induced arthritis, lung reperfusion injury, and acute immune complex-type glomerulonephritis. Anti-IL-8 treatment prevented neutrophil-dependent tissue damage as well as neutrophil infiltration in these conditions. These results suggest that IL-8 plays a causative role in acute inflammation by recruiting and activating neutrophils.
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            Biomarkers of progression of chronic obstructive pulmonary disease (COPD).

            Disease progression of chronic obstructive pulmonary disease (COPD) is variable, with some patients having a relatively stable course, while others suffer relentless progression leading to severe breathlessness, frequent acute exacerbations of COPD (AECOPD), respiratory failure and death. Radiological markers such as CT emphysema index, bronchiectasis and coronary artery calcification (CAC) have been linked with increased mortality in COPD patients. Molecular changes in lung tissue reflect alterations in lung pathology that occur with disease progression; however, lung tissue is not routinely accessible. Cell counts (including neutrophils) and mediators in induced sputum have been associated with lung function and risk of exacerbations. Examples of peripheral blood biological markers (biomarkers) include those associated with lung function (reduced CC-16), emphysema severity (increased adiponectin, reduced sRAGE), exacerbations and mortality [increased CRP, fibrinogen, leukocyte count, IL-6, IL-8, and tumor necrosis factor α (TNF-α)] including increased YKL-40 with mortality. Emerging approaches to discovering markers of gene-environment interaction include exhaled breath analysis [volatile organic compounds (VOCs), exhaled breath condensate], cellular and systemic responses to exposure to air pollution, alterations in the lung microbiome, and biomarkers of lung ageing such as telomere length shortening and reduced levels of sirtuins. Overcoming methodological challenges in sampling and quality control will enable more robust yet easily accessible biomarkers to be developed and qualified, in order to optimise personalised medicine in patients with COPD.
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              Association study suggests opposite effects of polymorphisms within IL8 on bronchial asthma and respiratory syncytial virus bronchiolitis.

              IL-8 is a strong inductor of inflammation. Accordingly, it plays a pivotal role in acute inflammatory responses during respiratory syncytial virus (RSV) infections and in chronic inflammatory diseases such as bronchial asthma and juvenile idiopathic arthritis. Recently, 2 studies have found association of the polymorphism -251A of IL8 with RSV bronchiolitis. Furthermore, epidemiologic studies have demonstrated an increased risk for the development of asthma after RSV bronchiolitis, and a common genetic background for the 2 diseases is currently being discussed. This study investigated whether IL-8 is in association with asthma and/or arthritis and whether the results can confirm a common genetic background of RSV bronchiolitis and asthma. The polymorphisms -A251T, C781T, C1633T, and A2767T within IL8 were genotyped in the following 4 populations: children with asthma, atopic children, children with juvenile idiopathic arthritis, and control subjects. Statistical analysis made use of the Armitage trend test and the software program Arlequine. Association of all polymorphisms was found with asthma ( P =.008 to P =.03). Surprisingly -251T was associated with asthma, which is the opposite allele as described in association with RSV bronchiolitis. Furthermore, all polymorphisms were significantly more common in children with arthritis than in asthmatic children ( P =.006 to P =.02). No association was seen with the diagnosis of arthritis per se or with atopy. This is the first study to describe association of IL-8 with asthma and a significant inverse distribution of the polymorphisms in juvenile idiopathic arthritis. In addition, the results of this study might suggest that RSV bronchiolitis and bronchial asthma have at least some different genetic factors.
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                Journal
                10.1016/j.jped.2017.03.005
                http://creativecommons.org/licenses/by-nc-nd/4.0/

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