Kris P. Jeremy scite author profile

Kris P. Jeremy

2Publications

25Citation Statements Received

61Citation Statements Given

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XOMA (United States)

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4.1R-deficient human red blood cells have altered phosphatidylserine exposure pathways and are deficient in CD44 and CD47 glycoproteins

Jeremy¹,

Plummer²,

Head³

et al. 2009

Haematologica

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BackgroundProtein 4.1R is an important component of the red cell membrane skeleton. It imparts structural integrity and has transmembrane signaling roles by direct interactions with transmembrane proteins and other membrane skeletal components, notably p55 and calmodulin. Design and MethodsSpontaneous and ligation-induced phosphatidylserine exposure on erythrocytes from two patients with 4.1R deficiency were studied, using CD47 glycoprotein and glycophorin C as ligands. We also looked for protein abnormalities in the 4.1R -based multiprotein complex. ResultsPhosphatidylserine exposure was significantly increased in 4.1R-deficient erythrocytes obtained from the two different individuals when ligands to CD47 glycoprotein were bound. Spontaneous phosphatidylserine exposure was normal. 4.1R, glycophorin C and p55 were missing or sharply reduced. Furthermore there was an alteration or deficiency of CD47 glycoprotein and a lack of CD44 glycoprotein. Based on a recent study in 4.1R-deficient mice, we found that there are clear functional differences between interactions of human red cell 4.1R and its murine counterpart. ConclusionsGlycophorin C is known to bind 4.1R, and we have defined previously that it also binds CD47. From our evidence, we suggest that 4.1R plays a role in the phosphatidylserine exposure signaling pathway that is of fundamental importance in red cell turnover. The linkage of CD44 to 4.1R may be relevant to this process. CD44 and CD47 glycoproteins. Haematologica 2009;94:1354-1361. doi:10.3324/haematol.2009 This is an open-access paper. 4.1R-deficient human red blood cells have altered phosphatidylserine exposure pathways and are deficient in CD44 and CD47 glycoproteins

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Development of XPA067.06, a potent high affinity human anti-gastrin monoclonal antibody

Hsu

Patel

Larsen

et al. 2008

Biochemical Pharmacology

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Kris P. Jeremy

4.1R-deficient human red blood cells have altered phosphatidylserine exposure pathways and are deficient in CD44 and CD47 glycoproteins

Development of XPA067.06, a potent high affinity human anti-gastrin monoclonal antibody

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