David J. Head scite author profile

Summary CD47 ligation has been shown to induce phosphatidylserine (PS) expression as part of a death pathway in nucleated blood cells. Using Annexin V binding assays we showed that ligation of CD47 with the specific CD47‐binding peptide 41NK, anti‐CD47 monoclonal antibody, and its natural ligand thrombospondin‐1 also induced PS expression on enucleated erythrocytes. PS expression was associated with a concomitant loss of erythrocyte viability in vitro. Further characterisation of the CD47‐PS signalling pathway on erythrocytes may help develop clinical strategies to further preserve the life of blood donations and improve our understanding of certain types of haemolytic anaemias.

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Molecular biology of Rh proteins and relevance to molecular medicine

Avent

Madgett

Lee

et al. 2006

ERM

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The Rhesus (Rh) blood group system is expressed by a pair of 12-transmembrane-domain-containing proteins, the RhCcEe and RhD proteins. RhCcEe and RhD associate as a Rh core complex that comprises one RhD/CcEe protein and most likely two Rh-associated glycoproteins (RhAG) as a trimer. All these Rh proteins are homologous and share this homology with two human non-erythroid proteins, RhBG and RhCG. All Rh protein superfamily members share homology and function in a similar manner to the Mep/Amt ammonium transporters, which are highly conserved in bacteria, plants and invertebrates. Significant advances have been made in our understanding of the structure and function of Rh proteins, as well as in the clinical management of Rh haemolytic disease. This review summarises our current knowledge concerning the molecular biology of Rh proteins and their role in transfusion and pregnancy incompatibility.

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Expression of phosphatidylserine (PS) on wild‐type and Gerbich variant erythrocytes following glycophorin‐C (GPC) ligation

Head

Lee

Poole³

et al. 2005

Br J Haematol

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Summary Glycophorin‐C (GPC) is a 40 kDa glycoprotein expressed on erythrocytes and is a receptor for the malarial parasite Plasmodium falciparum to invade these cells. A link between GPC binding (ligation) and phosphatidylserine (PS) expression on erythrocytes has been suggested by its appearance on P. falciparum‐infected erythrocytes. Phosphatidylserine expression has also been shown to be a marker of cellular death in a number of biological pathways including some in erythrocytes. Using Annexin V binding, we demonstrated that ligation of GPC with mouse mAb (BRIC‐10) induced PS expression on normal erythrocytes. Phosphatidylserine exposure was prevented following tryptic digestion of intact erythrocytes. In addition, GPC variant phenotypes Yus (Δ exon 2) and Gerbich (Δ exon 3), which express a truncated extracellular domain, did not express PS following BRIC‐10 binding, whereas PS was exposed on Lsa erythrocytes (duplication of exon 3). GPC ligation was also shown to result in a concomitant loss of erythrocyte viability in wild‐type erythrocytes after 24 h in vitro. These results identify a potential pathway linking GPC to PS exposure on erythrocytes that may have a role in regulating red cell turnover. Further characterization of this pathway may also identify new targets for the treatment of P. falciparum malaria.

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David J. Head

Ligation of CD47 mediates phosphatidylserine expression on erythrocytes and a concomitant loss of viability in vitro

Molecular biology of Rh proteins and relevance to molecular medicine

Expression of phosphatidylserine (PS) on wild‐type and Gerbich variant erythrocytes following glycophorin‐C (GPC) ligation

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