Fig. 1.
Fig. 1. Detection of PrPc on the surfaces of activated CD55− platelets of PNH patients. / (A) PrPc molecule schematic showing the location of mAb epitopes. Monoclonal antibodies FH11 and 1562 bind to sites on the N-terminal part of PrPc from a hydrophobic putative transmembrane segment (TM1), whereas 6H4 antibody binds to the C-terminal part of PrPc. (B) Two-color flow cytometry analysis of PrPc mAb binding to resting and TRAP-activated platelets of a PNH patient. CD55 antibody detected 2 platelet populations, CD55+ normal (11%) and CD55− PNH platelets (89%). Resting CD55+platelets displayed low levels of PrPc surface expression, but most resting CD55− platelets (depicted in gray) were negative for PrPc. Activation of platelets led to up-regulation of PrPc not only on CD55+ but surprisingly also on CD55−platelets. PrPc up-regulation on CD55− platelets, in contrast to CD55+ platelets, could not be detected by mAb 6H4, demonstrating that the C-terminal part of the molecule was not accessible for binding. Similar results were obtained in all PNH patients evaluated (n = 8). (C) Western blot analysis of PrPc expression in CD55− platelets of PNH patients. Immunoblots were developed using mAb 6H4 without (A) or in the presence of (B) competing peptide. Lane 1, normal platelets; lanes 2 and 3, platelets of 2 PNH patients with major PNH platelet clone (more than 95% of platelets were CD55−). PrPc present in PNH platelets contained the 6H4 epitope and exhibited slightly lower molecular weight than PrPc on normal platelets.

Detection of PrPc on the surfaces of activated CD55 platelets of PNH patients.

(A) PrPc molecule schematic showing the location of mAb epitopes. Monoclonal antibodies FH11 and 1562 bind to sites on the N-terminal part of PrPc from a hydrophobic putative transmembrane segment (TM1), whereas 6H4 antibody binds to the C-terminal part of PrPc. (B) Two-color flow cytometry analysis of PrPc mAb binding to resting and TRAP-activated platelets of a PNH patient. CD55 antibody detected 2 platelet populations, CD55+ normal (11%) and CD55 PNH platelets (89%). Resting CD55+platelets displayed low levels of PrPc surface expression, but most resting CD55 platelets (depicted in gray) were negative for PrPc. Activation of platelets led to up-regulation of PrPc not only on CD55+ but surprisingly also on CD55platelets. PrPc up-regulation on CD55 platelets, in contrast to CD55+ platelets, could not be detected by mAb 6H4, demonstrating that the C-terminal part of the molecule was not accessible for binding. Similar results were obtained in all PNH patients evaluated (n = 8). (C) Western blot analysis of PrPc expression in CD55 platelets of PNH patients. Immunoblots were developed using mAb 6H4 without (A) or in the presence of (B) competing peptide. Lane 1, normal platelets; lanes 2 and 3, platelets of 2 PNH patients with major PNH platelet clone (more than 95% of platelets were CD55). PrPc present in PNH platelets contained the 6H4 epitope and exhibited slightly lower molecular weight than PrPc on normal platelets.

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