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Value of RAGE as a circulating biomarker : from sRAGE to anti-sRAGE autoantibodies

Cardiovascular diseases (CVDs) are the leading cause of mortality and morbidity in the world. The risk of CVDs increases with age, tobacco, diabetes, dyslipidemia, obesity and kidney dysfunction. The incidence and prevalence of CVDs demands the development of efficient strategies for prevention and treatment, as well as new biomarkers. The receptor for advanced glycation end-products (RAGE) is implicated in several metabolic and inflammatory disorders. RAGE activation by its multiple ligands, i.e. advanced glycation end-products (AGEs), S100 proteins and amphoterin (HMGB1) induces pro-inflammatory events upon RAGE engagement. The soluble circulating form of RAGE (sRAGE) has been proposed as a biomarker of vascular risk, disease severity and outcome, especially in individuals with diabetes or kidney dysfunction. However, data is controversial since positive and negative correlations are observed for a same disease. Nevertheless, the importance of the ligand-RAGE axis in pathological processes and the wide range of RAGE-binding molecules (from pro-inflammatory proteins to autoantibodies), appreciates the present study.In this thesis, we first investigated effects of RAGE ligands and the recently described anti-sRAGE autoantibodies on sRAGE quantification. We hypothesized that interactions between sRAGE and these molecules could impair sRAGE quantification. On the second part, we evaluated the value of sRAGE and anti-sRAGE autoantibodies as biomarkers of metabolic improvement after bariatric surgery for morbid obesity. Patients were selected from the established cohort ABOS (Lille). RAGE ligands (Nε-carboxymethyllysine, S100A6, S100A12, S100B, HMGB1 and amyloid beta peptide) bind sRAGE at different sites and could potentially impair its quantification through epitope masking. We tested this hypothesis by incubating these ligands, from physiological to pathological concentrations, with recombinant sRAGE and serum to evaluate their effects on sRAGE quantification. Anti-sRAGE autoantibodies were identified and further purified and their effects on sRAGE measurement evaluated. The presence of ligands or anti-sRAGE autoantibodies did not impair recombinant or serum sRAGE quantification. Obesity is a condition of dyslipidemia, glycemia deregulation and inflammation where RAGE is believed to play an important role. We aimed then to investigate the levels of sRAGE and its autoantibodies according to metabolic improvement in obese subjects submitted to weight loss surgery. Patients were highly selected from a well established cohort (morbidly obese patients eligible for gastric bypass, ABOS, Lille). Patients under statins treatment, with kidney dysfunction or hypertension, factors that could affect sRAGE levels, were excluded. In obese patients, significant higher levels of sRAGE and anti-sRAGE autoantibodies were observed before weight-loss surgery. In parallel to body-mass Index, both sRAGE and anti-sRAGE titers were significantly decreased one year after surgery.We demonstrate that the variations of sRAGE levels among the literature are, most likely, not due to an interaction between RAGE ligands and sRAGE. Other hypothesis like the regulation of sRAGE formation and clearance are further discussed. We have, for the first time demonstrated the presence of anti-sRAGE autoantibodies in obese subjects and that their levels decrease after bariatric surgery. Although our data suggest that morbid obese status leads to an autoimmune reactions against sRAGE. Together, our findings argue against sRAGE as a good biomarker but suggest that anti-sRAGE autoantibodies may have a potential implication to evaluate metabolic risk and autoimmunity associated to RAGE

Identiferoai:union.ndltd.org:CCSD/oai:tel.archives-ouvertes.fr:tel-01059800
Date23 September 2013
CreatorsLorenzi, Rodrigo
PublisherUniversité du Droit et de la Santé - Lille II
Source SetsCCSD theses-EN-ligne, France
Languagefra
Detected LanguageEnglish
TypePhD thesis

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