The function of the human factor V carbohydrate moiety in blood coagulation

Abstract

Human factor V was subjected to desialation and deglycosylation to investigate the function of the molecular carbohydrate moiety. Removal of 90% of the sialic acid residues resulted in a 1.5-2-fold increase in clotting activity, and up to 70% deglycosylation in a concurrent decrease in clotting activity. Desialation had no effect on thrombin-induced activation, whereas deglycosylated factor V activation was impaired. Lectin-blot experiments with sialic-acid-specific Limax flavus agglutinin (LFA), galactose-specific Ricinus communis agglutinin (RCA-II) and mannose-specific concanavalin A on thrombin-induced factor V fragments revealed the presence of carbohydrate residues in fragments B, C1, D and F1F2. Interestingly, sialic acid was present in C1 whilst galactose was not detectable. Fragment F1F2 contained terminal galactose residues. LFA and RCA-II inhibited the procoagulant activity of native factor V and of desialated factor V respectively. These investigations distinctly indicate the important role of the human factor V carbohydrate moiety in the process of blood coagulation.