, Bibliographie, issue.1

A. H. Mark and M. , Thiols and pancreatic ?-cell function : A review, Cell Biochem Funct, vol.3, issue.3, pp.157-171, 1985.

A. O. Saka, S. Krim, M. Messaadia, A. Maidi, and I. , The Investigation of the Oxidative Stress-Related Parameters in Type 2 Diabetes Mellitus, Canadian Journal of Diabetes, vol.39, issue.1, pp.44-49, 2015.

A. U. Abad, K. Ismail, and K. , Diabetes mellitus and oxidative stress?A concise review, Saudi Pharmaceutical Journal, vol.24, issue.5, pp.547-553, 2016.

B. R. Nemoto, S. Finkel, and T. , Mitochondria, Oxidants, and Aging. Cell, vol.120, issue.4, pp.483-495, 2005.

B. C. Gerard and R. W. , The extra respiration of phagocytosis, Am J Physiol, vol.103, pp.235-236, 1933.

B. H. , Randomized, placebo-controlled, double blind study on the clinical efficacy of a cream containing 5% ?-lipoic acid related to photoageing of facial skin, British Journal of Dermatology, vol.149, issue.9, pp.841-849, 2003.

B. M. , The Pathobiology of Diabetic Complications: A Unifying Mechanism, Diabetes, vol.54, issue.6, pp.1615-1625, 2005.

B. J. Mccoid, S. C. Reynolds, T. H. Nardone, N. A. Hargrove, D. M. Stevenson et al., GLUT4 Overexpression in db/db Mice Dose- Dependently Ameliorates Diabetes But Is Not a Lifelong Cure, Diabetes, vol.50, issue.3, pp.593-600, 2001.

B. N. Govers, R. James, and D. E. , Regulated transport of the glucose transporter GLUT4, Nature Reviews Molecular Cell Biology, vol.3, issue.4, pp.267-277, 2002.
URL : https://hal.archives-ouvertes.fr/hal-01478407

, Bibliographie, issue.2

Ç. U. , Pro-oxidant actions of ?-lipoic acid and dihydrolipoic acid, Medical Hypotheses, vol.66, issue.1, pp.110-117, 2006.

D. W. , Free radicals in the physiological control of cell function, Physiol Rev, vol.82, issue.1, pp.47-95, 2002.

E. U. Cederberg, J. Wentzel, and P. , Congenital Malformations in Offspring of Diabetic Mothers-Animal and Human Studies, Rev Metab Disord, vol.4, issue.2, pp.79-93, 2003.

F. F. Hua, N. W. Reaven, G. M. Stoohs, and R. A. , Hyperinsulinemia: the missing link among oxidative stress and age-related diseases? Free Radical Biology and Medicine, pp.29-1302, 2000.

F. A. , Le stress oxydant Intérêt conceptuel et expérimental dans la compréhension des mécanismes des maladies et potentiel thérapeutique. L'Actualité Chimique, pp.270-278, 2003.

F. D. Chaudhuri, R. Yang, P. Maghzal, G. J. Thomas, K. C. Krycer et al.,

D. E. James, Mitochondrial CoQ deficiency is a common driver of mitochondrial oxidants and insulin resistance, Elife, vol.7, 2018.

F. S. Wingler, K. Schmehl, K. Jacobasch, G. Kreuzer, O. J. Meyerhof et al.,

R. Flohé, Cellular and subcellular localization of gastrointestinal glutathione peroxidase in normal and malignant human intestinal tissue, Free Radic Res, vol.35, issue.6, pp.655-663, 2001.

G. M. Staehr, P. Beck-nielsen, H. Schroder, H. D. Handberg, and A. , GLUT4 Is Reduced in Slow Muscle Fibers of Type 2 Diabetic Patients: Is Insulin Resistance in Type, 2001.

, Type 1 Fiber Disease? Diabetes, Diabetes a Slow, vol.50, issue.6, pp.1324-1329

G. S. Badran, M. Laher, and I. , Diabetes and Alpha Lipoic Acid, Frontiers in Pharmacology, vol.2, p.69, 2011.

, Bibliographie, issue.3

G. M. Negrato and C. , Alpha-lipoic acid as a pleiotropic compound with potential therapeutic use in diabetes and other chronic diseases, Diabetology & Metabolic Syndrome, vol.6, issue.1, p.80, 2014.

G. R. Barnett, P. Aguayo, J. Cheng, H. M. Chylack, and L. T. , Direct Measurement of Polyol Pathway Activity in the Ocular Lens, Diabetes, vol.33, issue.2, pp.196-199, 1984.

G. D. Tashakkor, B. Takeuchi, C. Gustafsson, A. B. Huang, C. Sayen et al., Reduction of ischemia and reperfusioninduced myocardial damage by cytochrome P450 inhibitors, Proceedings of the National Academy of Sciences, pp.1321-1326, 2004.

H. J. , Antioxidant and prooxidant mechanisms in the regulation of redox(y)sensitive transcription factors, Cellular Signalling, vol.14, issue.11, pp.879-897, 2002.

H. J. Pincemail, J. Defraigne, J. O. Charlier, C. Chapelle, and J. P. , Le stress oxydant, Journal of Food science, vol.62, pp.628-638, 2007.
URL : https://hal.archives-ouvertes.fr/halshs-00649831

H. S. Nouri, N. Fergani, I. Lakehal, A. Abadi, N. Benlatreche et al., , 2014.

, Peroxydation lipidique et équilibre glycémique chez les diabétiques de type 2. Nutrition clinique et métabolisme, p.131

H. P. Gulve, E. A. Marshall, B. A. Gao, J. Pessin, J. E. Holloszy et al., Skeletal Muscle Glucose Transport and Metabolism Are Enhanced in Transgenic Mice Overexpressing the Glut4 Glucose Transporter, Journal of Biological Chemistry, vol.270, issue.5, pp.1679-1684, 1995.
DOI : 10.1074/jbc.270.5.1679

H. H. Otmane, A. Makrelouf, M. Ouadahi, N. Abdi, and A. ,

A. Barkhaoum and E. A. Koceir, Primary evaluation of antioxidant status oligomineral patient with type 2 diabetes Algeria: special interest manganese and chromium, Annales de Biologie Clinique, vol.70, issue.6, pp.669-677, 2012.

, Bibliographie, issue.4

H. D. , Aging: A Theory Based on Free Radical and Radiation Chemistry, Journal of Gerontology, vol.11, issue.3, pp.298-300, 1956.

H. A. Jacobs, D. R. Steffes, M. W. Gross, M. D. Steffen, L. M. Lee et al., , 2007.

, Relationships of Circulating Carotenoid Concentrations with Several Markers of Inflammation, Oxidative Stress, and Endothelial Dysfunction: The Coronary Artery Risk Development in Young Adults (CARDIA)/Young Adult Longitudinal Trends in Antioxidants (YALTA) Study, Clinical Chemistry, vol.53, issue.3, pp.447-455

I. Y. Toyokuni, S. Uchida, K. Odaka, H. Tanaka, T. Ikeda et al., Hyperglycemia causes oxidative stress in pancreatic beta cells of GK rats, a model of type 2 diabetes, Diabetes, vol.48, issue.4, pp.927-959, 1999.

I. Diabetes and F. , IDF Diabetes Atlas, 2013.

I. Diabetes and F. , IDF Diabetes Atlas, 2017.

J. K. Dutta, A. Chakraborty, P. Manna, I. Firdaus, and S. B. ,

R. Chattopadhyay and B. Chakravarty, Alpha-lipoic acid and N-acetylcysteine protects intensive swimming exercise-mediated germ-cell depletion, pro-oxidant generation, and alteration of steroidogenesis in rat testis, Molecular Reproduction and Development, vol.81, issue.9, pp.833-850, 2014.

K. N. , Mechanism of Development of Atherosclerosis and Cardiovascular Disease in Diabetes Mellitus, Journal of Atherosclerosis and Thrombosis, vol.25, issue.1, pp.27-39, 2018.

K. G. Brownlee and M. , The cellular and molécular mechanisms of diabetic complications, Endocrinol Metab Clin North Am, vol.25, pp.255-270, 1996.

, Bibliographie, issue.5

K. W. , The Haber-Weiss cycle ? 70 years later, Redox Rep, vol.6, issue.4, pp.229-234, 2001.

K. Kramer, C. Welker, S. Lang, F. Ammon, H. P. Drews et al., , 1999.

, Interference of H2O2 with stimulus-secretion coupling in mouse pancreatic beta cells. The Jounal of Physiology, pp.471-481

K. H. Wang, J. Bray, T. M. Philips, and J. P. , Targeted Overexpression of, 1997.

. Cu, Zn Superoxide Dismutase Protects Pancreatic ?-Cells Against Oxidative Stress, Diabetes, vol.46, issue.10, pp.1563-1566

L. S. Drinkgern, J. Tiedge, and M. , Low antioxidant enzyme gene expression in pancreatic islets compared with various other mouse tissues, Free Radical Biology and Medicine, vol.20, issue.3, pp.463-466, 1996.

M. J. Hart and G. W. , Protein O -GlcNAcylation in diabetes and diabetic complications, Expert Review of Proteomics, vol.10, issue.4, pp.365-380, 2013.

M. D. Stehouwer, C. D. Schalkwijk, and C. G. , The role of methylglyoxal and the glyoxalase system in diabetes and other age-related diseases, Clinical Science, issue.12, pp.128-839, 2015.

M. A. Chatterjee and I. B. , Mechanism of autoxidation of oxyhaemoglobin, Journal of Biosciences, vol.16, issue.12, pp.55-70, 1991.

M. C. Serres and M. , Espèces réactives de l'oxygène et stress oxydant, 2011.

, Médecine/Sciences, vol.27, pp.405-412

M. I. Ichimura, N. Sugiura, M. Hamada, Y. Taniguchi, and S. , Inhibition of Glucose- Induced Insulin Secretion by 4-Hydroxy-2-Nonenal and Other Lipid Peroxidation Products, Endocrinology, issue.8, pp.141-2767, 2000.

, Bibliographie, issue.6

M. T. Yasuno, R. Wada, and H. , Do mammalian cells synthesize lipoic acid?: Identification of a mouse cDNA encoding a lipoic acid synthase located in mitochondria, FEBS Letters, vol.498, issue.1, pp.16-21, 2001.

N. P. Cruzat, V. F. Keane, K. N. Carlessi, R. De-bittencourt, and P. I. , , 2016.

, Molecular mechanisms of ROS production and oxidative stress in diabetes, Biochemical Journal, vol.473, issue.24, pp.4527-4550

P. L. Kraemer, K. Rimbach, and G. , Molecular aspects of lipoic acid in the prevention of diabetes complications, Nutrition, vol.17, issue.10, pp.888-895, 2001.

P. I. Hasham, S. Saxena, U. Pillarisetti, and S. , Lipoic Acid Synthase (LASY): A Novel Role in Inflammation, Mitochondrial Function, and Insulin Resistance, Diabetes, vol.58, issue.3, pp.600-608, 2009.

P. D. Rudich, A. Bashan, and N. , Oxidative stress impairs nuclear proteins binding to the insulin responsive element in the GLUT4 promoter, Diabetologia, vol.44, issue.12, pp.2156-2164, 2001.

P. J. Vanbelle, S. Gaspard, U. Collette, G. Haleng, J. Cheramy-bien et al., Giet D

A. Albert, R. Limet, and J. O. Defraigne, Effect of different contraceptive methods on the oxidative stress status in women aged 40?48 years from the ELAN study in the province of Liège, Belgium. Human Reproduction, vol.22, issue.8, pp.2335-2343, 2007.

R. H. Prabu, S. K. Robin, M. A. Avadhani, and N. G. , Elevated Mitochondrial, 2004.

P. Cytochrome, . 2e1, and S. Glutathione, A4-4 in Streptozotocin-Induced Diabetic Rats: Tissue-Specific Variations and Roles in Oxidative Stress, Diabetes, vol.53, issue.1, pp.185-194

R. E. Wu and Y. K. , Prevention of diabetic embryopathy in offspring of diabetic rats with use of a cocktail of deficient substrates and an antioxidant, American Journal of Obstetrics and Gynecology, vol.176, issue.4, pp.790-798, 1997.

, Bibliographie, issue.8

V. A. Park, T. S. Stransberry, K. B. Pittenger, and G. L. , Diabetic neuropathies, Diabetologia, vol.43, pp.957-973, 2000.

X. P. Inoguchi, T. Kern, T. S. Engerman, R. L. Oates, P. J. King et al., , 1994.

, Characterization of the Mechanism for the Chronic Activation of Diacylglycerol-Protein Kinase C Pathway in Diabetes and Hypergalactosemia, pp.1122-1129

X. L. Badr and M. Z. , Enhanced potential for oxidative stress in hyperinsulinemic rats: imbalance between hepatic peroxisomal hydrogen peroxide production and decomposition due to hyperinsulinemia, Horm Metab Res, vol.31, issue.4, pp.278-282, 1999.

Y. Z. Kherada, N. Farrar, B. Kampfrath, T. Chung, Y. Simonetti et al.,

, Lipoic acid effects on established atherosclerosis, Life Sciences, vol.8634, pp.95-102, 2010.

Z. W. Bird, K. E. Mcmillen, T. S. Leboeuf, R. C. Hagen, T. M. Frei et al., , 2008.

, Dietary -Lipoic Acid Supplementation Inhibits Atherosclerotic Lesion Development in

E. Apolipoprotein, . Deficient, E. Apolipoprotein, and . Low, Density Lipoprotein Receptor Deficient Mice, Circulation, vol.117, issue.3, pp.421-428

Z. D. Nowak, H. Kempler, P. Vargha, P. Low, and P. A. , Treatment of symptomatic diabetic polyneuropathy with the antioxydant ?-lipoic acid : A meta-analysis, Diabetic Medicine, vol.21, issue.2, pp.114-121, 2004.