Abstract
An elevated platelet count is frequently observed in several clinical conditions (e.g., chronic inflammation, acute hemorrhage) that may lead to reactive thrombocytosis (RT). Recently we found that i) complement is activated/cleaved in the bone marrow with release of C3a and des-Arg C3a fragments that sensitize responses of hematopoietic cells to SDF-1 (
Blood 2003;101:3784
), an alpha-chemokine that plays an important role in Meg maturation/proplatelet formation, and ii) C3 deficient mice display delayed recovery of platelet counts after sublethal irradiation (Leukemia 2004, in press). Thus, since levels of C3 cleavage products (C3a and des-Arg C3a) and SDF-1 are elevated in bone marrow during inflammation and acute hemorrhage, we hypothesized that they may play a role in the pathogenesis of RT by enhancing Meg maturation/platelet production. In support of this notion we found that i) the receptor for C3a (C3aR) is highly expressed and functional on CFU-Meg progenitors and maturating Megs, ii) C3a induces a calcium flux and actin polymerization in Megs and enhances chemotactic response of human CFU-Meg and maturing Megs to an SDF-1 gradient, and iii) in the presence of C3a + SDF-1, Megs secrete more VEGF and MMP-9, which play a role in proplatelet formation. These effects were not inhibited by the small molecular antagonist of C3aR, SB290157, suggesting the involvement of the C3a derivative, des-Arg-C3a, that binds another C3a receptor called C5L2. At the molecular level we observed that C3a and des-ArgC3 promote the incorporation of CXCR4 into membrane lipid rafts in hematopoietic cells, allowing for its better interaction with small GTP-ases (Rac/Rho). We conclude that C3a and des-Arg C3a modulate the responsiveness of Megs to SDF-1 and postulate that the novel crosstalk between C3aR, C5L2 and CXCR4-G-protein coupled receptors we identified here plays an important and previously unrecognized role in the final maturation of Megs and pro-platelet formation during stress. Thus our results shed more light on the pathogenesis of RT and suggest that inhibitors of both CXCR4 and C3 could find a potential novel clinical application as drugs controlling elevated platelet counts.Author notes
Corresponding author
2005, The American Society of Hematology
2004
