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Merck

Fibrinogen αC-subregions critically contribute blood clot fibre growth, mechanical stability, and resistance to fibrinolysis.

eLife (2021-10-12)
Helen R McPherson, Cedric Duval, Stephen R Baker, Matthew S Hindle, Lih T Cheah, Nathan L Asquith, Marco M Domingues, Victoria C Ridger, Simon DA Connell, Khalid M Naseem, Helen Philippou, Ramzi A Ajjan, Robert As Ariëns
ABSTRAKT

Fibrinogen is essential for blood coagulation. The C-terminus of the fibrinogen α-chain (αC-region) is composed of an αC-domain and αC-connector. Two recombinant fibrinogen variants (α390 and α220) were produced to investigate the role of subregions in modulating clot stability and resistance to lysis. The α390 variant, truncated before the αC-domain, produced clots with a denser structure and thinner fibres. In contrast, the α220 variant, truncated at the start of the αC-connector, produced clots that were porous with short, stunted fibres and visible fibre ends. These clots were mechanically weak and susceptible to lysis. Our data demonstrate differential effects for the αC-subregions in fibrin polymerisation, clot mechanical strength, and fibrinolytic susceptibility. Furthermore, we demonstrate that the αC-subregions are key for promoting longitudinal fibre growth. Together, these findings highlight critical functions of the αC-subregions in relation to clot structure and stability, with future implications for development of novel therapeutics for thrombosis.

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Sigma-Aldrich
DL-Homocystine-1,1′-13C2, 99 atom % 13C