CD47 functions as a molecular switch for erythrocyte phagocytosis

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CD47 functions as a molecular switch for erythrocyte phagocytosis by Patrick Burger, Petra Hilarius-Stokman, Dirk de Korte, Timo K. van den Berg, and Robin van Bruggen Blood Volume 119(23):5512-5521 June 7, 2012 ©2012 by American Society of Hematology

Binding of erythrocytes to CHO cells transfected with SIRPα. Binding of erythrocytes to CHO cells transfected with SIRPα. (A) A fraction of erythrocytes obtained from fresh blood binds to CHO SIRPα cells, whereas no binding was observed to mock-transfected cells. Binding of erythrocytes to CHO SIRPα cells is dependent on CD47 and SIRPα. (B) The erythrocytes from fresh blood that bind to CHO SIRPα cells reside in the fraction of old erythrocytes. Data are representative of 4 experiments. Patrick Burger et al. Blood 2012;119:5512-5521 ©2012 by American Society of Hematology

CHO SIRPα cells bind and phagocytose erythrocytes. CHO SIRPα cells bind and phagocytose erythrocytes. (A) Phagocytosed erythrocytes were detected by intracellular glycophorin A staining in combination with a secondary goat anti–mouse Alexa-647 antibody. (B) Expression levels of different SIRPα constructs expressed in CHO cells, as detected by flow cytometry. (C) Binding of CD47 beads to CHO cells transfected with different constructs of SIRPα in the absence of serum. (D) Erythrocyte binding to CHO cells transfected with different SIRPα constructs in the absence of serum. Data are representative of 3 experiments. ns indicates not significant. **P < .01; ***P < .001. Patrick Burger et al. Blood 2012;119:5512-5521 ©2012 by American Society of Hematology

CD47 on experimentally senescent erythrocytes is recognized by SIRPα. CD47 on experimentally senescent erythrocytes is recognized by SIRPα. (A) Experimental aging of erythrocytes in combination with serum treatment induces binding to CHO SIRPα cells. (B) CD47 staining with the conformation-independent antibody B6H12 and 2D3, an antibody that detects a conformation-dependent epitope of CD47 on experimentally aged erythrocytes, shows a conformational change of CD47 after experimental aging. (C) Experimental aging of erythrocytes results in binding of the TSP-1-derived peptide 4N1K. No binding was observed for the control peptide, 4NGG. Furthermore, no streptavidin-APC staining was observed for fresh erythrcoytes and oxidized erythrocytes when no peptide was added or when fresh erythrocytes were incubated with the 4NGG peptide (data not shown). (D) Aging of young erythrocytes in combination with 4N1K peptide incubation results in binding to CHO SIRPα cells. (E) Oxidation of CD47 beads inhibits binding to CHO SIRPα cells. The binding of oxidized CD47 beads could subsequently be induced in combination with the 4N1K peptide, but not with the control peptide, 4NGG. Data are representative of 3 experiments. Patrick Burger et al. Blood 2012;119:5512-5521 ©2012 by American Society of Hematology

Experimentally aged erythrocytes are phagocytosed by macrophages after 4N1K binding. Experimentally aged erythrocytes are phagocytosed by macrophages after 4N1K binding. (A) Aging of fresh erythrocytes in combination with 4N1K peptide incubation induces phagocytosis by differentiated THP-1 cells (n = 3). (B) Phase-contrast image of primary human red pulp macrophages. Arrowheads indicate the erythrocytes still associated with the red pulp macrophages on isolation. (C) Expression of SIRPα on primary human red pulp macrophages, as detected by flow cytometry. (D) Aging of fresh erythrocytes in combination with 4N1K peptide incubation induces phagocytosis by primary human red pulp macrophages (n = 2). ns indicates not significant. *P < .05; **P < .01; ***P < .001. Patrick Burger et al. Blood 2012;119:5512-5521 ©2012 by American Society of Hematology

Storage of erythrocytes induces conformational changes in CD47 and TSP-1 binding. Storage of erythrocytes induces conformational changes in CD47 and TSP-1 binding. (A) CD47 on stored erythrocytes undergoes a conformational change, as detected by an increase in 2D3 binding, after overnight dilution in whole blood. (B) TSP-1 binding as detected by the A6.1 antibody on stored erythrocytes after overnight dilution in whole blood. (C) The 4N1K peptide binds to stored erythrocytes after overnight incubation in whole blood. The 4N1K peptide binding to aged erythocytes is shown for comparison. (D) Competition of CD47 antibody binding and 4N1K peptide binding was analyzed on stored erythrocytes after overnight. Stored erythrocytes were first incubated with either CD47 antibody or biotinylated TSP-1 peptides and subsequently incubated with biotinylated TSP-1 peptide and CD47 antibody, respectively. Subsequently, total TSP-1 peptide binding was determined by streptavidin binding (all experiments are n = 4). ns indicates not significant. *P < .05; ***P < .001. Patrick Burger et al. Blood 2012;119:5512-5521 ©2012 by American Society of Hematology