T. F. Lu?scher, M. A. Creager, J. A. Beckman, and F. Cosentino, Diabetes and Vascular Disease, Circulation, vol.108, issue.13, pp.1655-1661, 2003.

J. Plutzky, The vascular biology of atherosclerosis, The American Journal of Medicine, vol.115, issue.8, pp.55-61, 2003.

F. Picard, J. Adjedj, and O. Varenne, Le diabète, une pathologie prothrombotique, Annales de Cardiologie et d'Angéiologie, vol.66, issue.6, pp.385-392, 2017.

N. Babu and M. Singh, Influence of hypercholesterolemia on deformability and shape parameters of erythrocytes in hyperglycemic subjects, Clinical Hemorheology and Microcirculation, vol.41, issue.3, pp.169-177, 2009.

M. A. Creager, T. F. Lu?scher, F. Cosentino, and J. A. Beckman, Diabetes and Vascular Disease, Circulation, vol.108, issue.12, pp.1527-1532, 2003.

M. R. Hayden and S. C. Tyagi, Homocysteine and reactive oxygen species in metabolic syndrome, type 2 diabetes mellitus, and atheroscleropathy: The pleiotropic effects of folate supplementation, Nutrition Journal, vol.3, issue.1, p.1, 2004.

G. K. Kolluru, S. C. Bir, and C. G. Kevil, Endothelial Dysfunction and Diabetes: Effects on Angiogenesis, Vascular Remodeling, and Wound Healing, International Journal of Vascular Medicine, vol.2012, pp.1-30, 2012.

K. R. Purushothaman, M. R. Purushothaman, P. Muntner, P. A. Lento, W. N. O'connor et al., Inflammation, neovascularization and intra-plaque hemorrhage are associated with increased reparative collagen content: Implication for plaque progression in diabetic atherosclerosis, Vascular Medicine, vol.16, issue.2, pp.103-108, 2011.

D. N. Tziakas, G. K. Chalikias, D. Stakos, and H. Boudoulas, The role of red blood cells in the progression and instability of atherosclerotic plaque, International Journal of Cardiology, vol.142, issue.1, pp.2-7, 2010.

F. D. Kolodgie, H. K. Gold, A. P. Burke, D. R. Fowler, H. S. Kruth et al., Intraplaque Hemorrhage and Progression of Coronary Atheroma, New England Journal of Medicine, vol.349, issue.24, pp.2316-2325, 2003.

J. Viskupicova, D. Blaskovic, S. Galiniak, M. Soszy?ski, G. Bartosz et al., Effect of high glucose concentrations on human erythrocytes in vitro, Redox Biology, vol.5, pp.381-387, 2015.

R. Nagai, E. K. Deemer, J. W. Brock, S. R. Thorpe, and J. W. Baynes, Effect of Glucose Concentration on Formation of AGEs in Erythrocytesin Vitro, Annals of the New York Academy of Sciences, vol.1043, issue.1, pp.146-150, 2005.

B. Buttari, E. Profumo, and R. Riganò, Crosstalk between Red Blood Cells and the Immune System and Its Impact on Atherosclerosis, BioMed Research International, vol.2015, pp.1-8, 2015.

D. M. Schrijvers, G. R. De-meyer, M. M. Kockx, A. G. Herman, and W. Martinet, Phagocytosis of Apoptotic Cells by Macrophages Is Impaired in Atherosclerosis, Arteriosclerosis, Thrombosis, and Vascular Biology, vol.25, issue.6, pp.1256-1261, 2005.

R. E. Garfield, S. Chacko, and S. Blose, Phagocytosis by muscle cells, Lab. Investig, vol.33, pp.418-427, 1975.

M. R. Bennett, D. F. Gibson, S. M. Schwartz, and J. F. Tait, Binding and Phagocytosis of Apoptotic Vascular Smooth Muscle Cells Is Mediated in Part by Exposure of Phosphatidylserine, Circulation Research, vol.77, issue.6, pp.1136-1142, 1995.

S. Kolb, R. Vranckx, M. G. Huisse, J. B. Michel, and O. Meilhac, The phosphatidylserine receptor mediates phagocytosis by vascular smooth muscle cells, The Journal of Pathology, vol.212, issue.3, pp.249-259, 2007.

M. H. Fens, R. Van-wijk, G. Andringa, K. L. Van-rooijen, H. M. Dijstelbloem et al., A role for activated endothelial cells in red blood cell clearance: implications for vasopathology, Haematologica, vol.97, issue.4, pp.500-508, 2011.

J. L. Wautier, M. P. Wautier, A. M. Schmidt, G. M. Anderson, O. Hori et al., Advanced glycation end products (AGEs) on the surface of diabetic erythrocytes bind to the vessel wall via a specific receptor inducing oxidant stress in the vasculature: a link between surface-associated AGEs and diabetic complications., Proceedings of the National Academy of Sciences, vol.91, issue.16, pp.7742-7746, 1994.

M. Prost, Process for the determination by means of free radicals of the antioxidant properties of a living organism or a potentially aggressive agents, vol.5, pp.135-850, 1992.

K. F. Mcfarland, E. W. Catalano, J. F. Day, S. R. Thorpe, and J. W. Baynes, Nonenzymatic glucosylation of serum proteins in diabetes mellitus, Diabetes, vol.28, issue.11, pp.1011-1014, 1979.

N. A. Franken, H. M. Rodermond, J. Stap, J. Haveman, and C. Van-bree, Clonogenic assay of cells in vitro, Nature Protocols, vol.1, issue.5, pp.2315-2319, 2006.

C. C. Liang, A. Y. Park, and J. Guan, In vitro scratch assay: a convenient and inexpensive method for analysis of cell migration in vitro, Nature Protocols, vol.2, issue.2, pp.329-333, 2007.

C. Liang, A. Y. Park, and J. Guan, In vitro scratch assay: a convenient and inexpensive method for analysis of cell migration in vitro, Nature Protocols, vol.2, issue.2, pp.329-333, 2007.

P. Burger, P. Hilarius-stokman, D. De-korte, T. K. Van-den-berg, and R. Van-bruggen, CD47 functions as a molecular switch for erythrocyte phagocytosis, Blood, vol.119, issue.23, pp.5512-5521, 2012.

B. B. Weksler, E. A. Subileau, N. Perrière, P. Charneau, K. Holloway et al., Blood?brain barrier?specific properties of a human adult brain endothelial cell line, The FASEB Journal, vol.19, issue.13, pp.1872-1874, 2005.

W. Sompong, H. Cheng, and S. Adisakwattana, Protective Effects of Ferulic Acid on High Glucose-Induced Protein Glycation, Lipid Peroxidation, and Membrane Ion Pump Activity in Human Erythrocytes, PLOS ONE, vol.10, issue.6, p.e0129495, 2015.

Y. R. Sailaja, R. Baskar, and D. Saralakumari, The antioxidant status during maturation of reticulocytes to erythrocytes in type 2 diabetics, Free Radical Biology and Medicine, vol.35, issue.2, pp.133-139, 2003.

M. A. Virtue, J. K. Furne, F. Q. Nuttall, and M. D. Levitt, Relationship Between GHb Concentration and Erythrocyte Survival Determined From Breath Carbon Monoxide Concentration, Diabetes Care, vol.27, issue.4, pp.931-935, 2004.

R. D. Brunning, H. S. Jacob, W. D. Brenckman, F. Jimenez-pasquau, and F. C. Goetz, Fragmentation Haemolysis in Patients with Severe Diabetic Angiopathy, British Journal of Haematology, vol.34, issue.2, pp.283-289, 1976.

J. L. Wautier, R. C. Paton, M. L. Wautier, D. Pintigny, E. Abadie et al., Increased Adhesion of Erythrocytes to Endothelial Cells in Diabetes Mellitus and Its Relation to Vascular Complications, New England Journal of Medicine, vol.305, issue.5, pp.237-242, 1981.

Q. Zhang, M. E. Monroe, A. A. Schepmoes, T. R. Clauss, M. A. Gritsenko et al., Comprehensive Identification of Glycated Peptides and Their Glycation Motifs in Plasma and Erythrocytes of Control and Diabetic Subjects, Journal of Proteome Research, vol.10, issue.7, pp.3076-3088, 2011.

A. B. Manodori and F. A. Kuypers, Altered red cell turnover in diabetic mice, Journal of Laboratory and Clinical Medicine, vol.140, issue.3, pp.161-165, 2002.

Y. M. Park, CD36, a scavenger receptor implicated in atherosclerosis, Experimental & Molecular Medicine, vol.46, issue.6, pp.e99-e99, 2014.

O. Borst, M. Abed, I. Alesutan, S. T. Towhid, S. M. Qadri et al., Dynamic adhesion of eryptotic erythrocytes to endothelial cells via CXCL16/SR-PSOX, American Journal of Physiology-Cell Physiology, vol.302, issue.4, pp.C644-C651, 2012.

M. H. Fens, E. Mastrobattista, A. M. De-graaff, F. M. Flesch, A. Ultee et al., Angiogenic endothelium shows lactadherin-dependent phagocytosis of aged erythrocytes and apoptotic cells, Blood, vol.111, issue.9, pp.4542-4550, 2008.

C. Closse, J. Dachary-prigent, and M. R. Boisseau, Phosphatidylserine-related adhesion of human erythrocytes to vascular endothelium, British Journal of Haematology, vol.107, issue.2, pp.300-302, 1999.

W. Ni, S. Mao, G. Xi, R. F. Keep, and Y. Hua, Role of Erythrocyte CD47 in Intracerebral Hematoma Clearance, Stroke, vol.47, issue.2, pp.505-511, 2016.

C. Jing, L. Bian, M. Wang, R. F. Keep, G. Xi et al., Enhancement of Hematoma Clearance With CD47 Blocking Antibody in Experimental Intracerebral Hemorrhage, Stroke, vol.50, issue.6, pp.1539-1547, 2019.

J. L. Dall, B. Ho-tin-noe, L. Louedec, O. Meilhac, C. Roncal et al., Immaturity of microvessels in haemorrhagic plaques is associated with proteolytic degradation of angiogenic factors, Cardiovasc. Res, vol.85, pp.184-193, 2010.
URL : https://hal.archives-ouvertes.fr/hal-02142783

S. Delbosc, R. G. Bayles, J. Laschet, V. Ollivier, B. Ho-tin-noé et al., Erythrocyte Efferocytosis by the Arterial Wall Promotes Oxidation in Early-Stage Atheroma in Humans, Frontiers in Cardiovascular Medicine, vol.4, p.43, 2017.

X. M. Yuan, W. Li, A. G. Olsson, and U. T. Brunk, Iron in human atheroma and LDL oxidation by macrophages following erythrophagocytosis, Atherosclerosis, vol.124, issue.1, pp.61-73, 1996.

M. P. Wautier, T. Khodabandehlou, C. L. Devehat, and J. L. Wautier, Modulation of RAGE expression influences the adhesion of red blood cells from diabetic patients, Clin. Hemorheol. Microcirc, vol.35, pp.379-386, 2006.

E. Nagy, J. W. Eaton, V. Jeney, M. P. Soares, Z. Varga et al., Red Cells, Hemoglobin, Heme, Iron, and Atherogenesis, Arteriosclerosis, Thrombosis, and Vascular Biology, vol.30, issue.7, pp.1347-1353, 2010.

L. Marques, A. Negre-salvayre, L. Costa, and F. Canonne-hergaux, Iron gene expression profile in atherogenic Mox macrophages, Biochimica et Biophysica Acta (BBA) - Molecular Basis of Disease, vol.1862, issue.6, pp.1137-1146, 2016.
URL : https://hal.archives-ouvertes.fr/hal-01601639

A. Catan, C. Turpin, N. Diotel, J. Patche, A. Guerin-dubourg et al., Aging and glycation promote erythrocyte phagocytosis by human endothelial cells: Potential impact in atherothrombosis under diabetic conditions, Atherosclerosis, vol.291, pp.87-98, 2019.
URL : https://hal.archives-ouvertes.fr/hal-02987608