Fiche publication
Date publication
mars 2026
Journal
Blood
Auteurs
Membres identifiés du Cancéropôle Est :
Dr MANGIN Pierre
Tous les auteurs :
Yakusheva AA, Bourdon C, Jouffroy KA, Ahmed MU, Thevenot A, Fauth CE, Charle L, Flick MJ, Panteleev MA, Mangin PH
Lien Pubmed
Résumé
The process of non-occlusive thrombus formation is well known, but the mechanism keeping the thrombus silent at the end stage remains unclear. The aim of this work was to evaluate the role of fibrin in limiting further growth of a thrombotic remnant. Intravital microscopy showed that attachment of platelets to a fibrin-rich thrombus stopped after partial thrombus disaggregation, indicating that the thrombus activation potential is lost, a stage we named the stillness phase. Histological analyses showed that 80% of internal cross-section area of thrombus remnant is bordered by fibrin while 20% of superficial thrombus area was covered only by few platelet layers, suggesting a role of fibrin in limiting platelet recruitment. This result was confirmed in a flow-based assay where fibrin-rich thrombi recruited circulating platelets inefficiently as compared to fibrin-poor thrombi. Moreover, we found that in vitro, lysis of fibrin with rtPA released active thrombin. This observation was confirmed in vivo as treating a thrombus with rtPA to promote fibrin breakdown during the stillness phase resulted in the release of thrombin, leading to an unexpected re-growth of the thrombus. This finding was further supported by the dynamics of thrombus formation in FgaEK mice, which displayed repeated cycles of thrombus growth and detachment after vessel injury, with an inability to reach the stillness phase, accompanied by the continuous release of active thrombin. Altogether, these findings identify a novel role of fibrin in maintaining an end-stage thrombotic remnant in an inactive state.
Référence
Blood. 2026 03 30;:
