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      Genetic polymorphisms of innate immunity-related inflammatory pathways and their association with factors related to type 2 diabetes

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          Abstract

          Background

          Type 2 diabetes mellitus (T2DM) has been linked to a state of pre-clinical chronic inflammation resulting from abnormalities in the innate immune pathway. Serum levels of pro-inflammatory cytokines and acute-phase proteins, collectively known as 'inflammatory network', are elevated in the pre-, or early, stages of T2DM and increase with disease progression. Genetic variation can affect the innate immune response to certain environmental factors, and may, therefore, determine an individual's lifetime risk of disease.

          Methods

          We conducted a cross-sectional study in 6,720 subjects from the TwinsUK Registry to evaluate the association between 18 single nucleotide polymorphisms (SNPs) in five genes ( TLR4, IL1A, IL6, TNFA, and CRP) along the innate immunity-related inflammatory pathway and biomarkers of predisposition to T2DM [fasting insulin and glucose, HDL- and LDL- cholesterols, triglycerides (TGs), amyloid-A, sensitive C-reactive protein (sCRP) and vitamin D binding protein (VDBP) and body mass index (BMI)].

          Results

          Of 18 the SNPs examined for their association with nine metabolic phenotypes of interest, six were significantly associated with five metabolic phenotypes (Bonferroni correction, P ≤ 0.0027). Fasting insulin was associated with SNPs in IL6 and TNFA, serum HDL-C with variants of TNFA and CRP and serum sCRP level with SNPs in CRP. Cross-correlation analysis among the different metabolic factors related to risk of T2DM showed several significant associations. For example, BMI was directly correlated with glucose (r = 0.11), insulin (r = 0.15), sCRP (r = 0.23), LDL-C (r = 0.067) and TGs (r = 0.18) but inversely with HDL-C (r = -0.14). sCRP was also positively correlated ( P < 0.0001) with insulin (r = 0.17), amyloid-A (r = 0.39), TGs (r = 0.26), and VDBP (r = 0.36) but inversely with HDL-C (r = -0.12).

          Conclusion

          Genetic variants in the innate immunity pathway and its related inflammatory cascade is associated with some metabolic risk factors for T2DM; an observation that may provide a rationale for further studying their role as biomarkers for disease early risk prediction.

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          Innate immunity.

          R Medzhitov, C A Janeway (2000)
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            Inflammation: the link between insulin resistance, obesity and diabetes.

            Paresh Dandona, Ahmad Aljada, Arindam Bandyopadhyay (2004)
            Recent data have revealed that the plasma concentration of inflammatory mediators, such as tumour necrosis factor-alpha (TNF-alpha) and interleukin-6 (IL-6), is increased in the insulin resistant states of obesity and type 2 diabetes, raising questions about the mechanisms underlying inflammation in these two conditions. It is also intriguing that an increase in inflammatory mediators or indices predicts the future development of obesity and diabetes. Two mechanisms might be involved in the pathogenesis of inflammation. Firstly, glucose and macronutrient intake causes oxidative stress and inflammatory changes. Chronic overnutrition (obesity) might thus be a proinflammatory state with oxidative stress. Secondly, the increased concentrations of TNF-alpha and IL-6, associated with obesity and type 2 diabetes, might interfere with insulin action by suppressing insulin signal transduction. This might interfere with the anti-inflammatory effect of insulin, which in turn might promote inflammation.
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              Beyond Bonferroni: Less conservative analyses for conservation genetics

              Shawn Narum (2006)
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                Author and article information

                Journal
                Journal ID (nlm-ta): BMC Med Genet
                Title: BMC Medical Genetics
                Publisher: BioMed Central
                ISSN (Electronic): 1471-2350
                Publication date Collection: 2011
                Publication date (Electronic): 14 July 2011
                Volume: 12
                Page: 95
                Affiliations
                [1 ]Office for Biotechnology, Genomics and Population Health, Public Health Agency of Canada, 180 Queen Street West, Toronto, M5V 3L7, Canada
                [2 ]Dalla Lana School of Public Health, University of Toronto, College Street, Toronto, M5T 3M7, Canada
                [3 ]Department of Nutritional Sciences, University of Toronto, College Street, Toronto, M5S 3E2, Canada
                [4 ]Department of Epidemiology, Biostatistics and Occupational Health, McGill University, Pine Avenue West, Montreal, H3A 1A2, Canada
                [5 ]Department of Twin Research and Genetic Epidemiology, King's College London, St. Thomas's Hospital, Westminster Bridge Road, London, SE1 7EH, UK
                [6 ]Department of Medicine, McGill University, Pine Avenue West, Montreal, H3A 1A1, Canada
                Article
                Publisher ID: 1471-2350-12-95
                DOI: 10.1186/1471-2350-12-95
                PMC ID: 3161932
                PubMed ID: 21756351
                SO-VID: 2ff23b99-adef-4eca-b11c-f6174942846a
                Copyright © Copyright ©2011 Arora et al; licensee BioMed Central Ltd.
                License:

                This is an Open Access article distributed under the terms of the Creative Commons Attribution License ( http://creativecommons.org/licenses/by/2.0), which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.

                History
                Date received : 18 October 2010
                Date accepted : 14 July 2011
                Categories
                Subject: Research Article

                ScienceOpen disciplines: Genetics
                Data availability:
                ScienceOpen disciplines: Genetics

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