Artículo de revista
Identification of a Novel Mode of Complement Activation on Stimulated Platelets Mediated by Properdin and C3(H2O)
Fecha
2013Registro en:
J Immunol 2013; 190:6457-6467
0022-1767
doi: 10.4049/jimmunol.1300610
Autor
Saggu, Gurpanna
Cortes, Claudio
Emch, Heather N.
Ramírez Toloza, Galia
Worth, Randall G.
Ferreira, Viviana P.
Institución
Resumen
Elevated numbers of activated platelets circulate in patients with chronic inflammatory diseases, including atherosclerosis and
coronary disease. Activated platelets can activate the complement system. Although complement activation is essential for immune
responses and removal of spent cells from circulation, it also contributes to inflammation and thrombosis, especially in patients with
defective complement regulation. Proinflammatory activated leukocytes, which interact directly with platelets in response to vascular
injury, are among the main sources of properdin, a positive regulator of the alternative pathway. The role of properdin in
complement activation on stimulated platelets is unknown. Our data show that physiological forms of human properdin bind directly
to human platelets after activation by strong agonists in the absence of C3, and bind nonproportionally to surface CD62P
expression. Activation of the alternative pathway on activated platelets occurs when properdin is on the surface and recruits C3b or
C3(H2O) to form C3b,Bb or a novel cell-bound C3 convertase [C3(H2O),Bb], which normally is present only in the fluid phase.
Alternatively, properdin can be recruited by C3(H2O) on the platelet surface, promoting complement activation. Inhibition of
factor H–mediated cell surface complement regulation significantly increases complement deposition on activated platelets with
surface properdin. Finally, properdin released by activated neutrophils binds to activated platelets. Altogether, these data suggest
novel molecular mechanisms for alternative pathway activation on stimulated platelets that may contribute to localization of
inflammation at sites of vascular injury and thrombosis.