Laspa Zoi, Dicenta-Baunach Valerie, Schaale David, Sigle Manuel, Hochuli Ravi, Castor Tatsiana, Bayrak Alp, Harm Tobias, Müller Karin Anne Lydia, Pillaiyar Thanigaimalai, Laufer Stefan, Rohlfing Anne-Katrin, Gawaz Meinrad Paul
Department of Cardiology and Angiology, University Hospital Tübingen, University Tübingen, Germany.
Department of Pharmaceutical and Medicinal Chemistry, Institute of Pharmaceutical Sciences, University Tübingen, Germany.
FEBS J. 2024 Dec;291(24):5420-5434. doi: 10.1111/febs.17294. Epub 2024 Oct 10.
In vulnerable atherosclerotic plaques, intraplaque hemorrhages (IPH) result in hemolysis of red blood cells and release of hemoglobin and free hemin. Hemin activates platelets and leads to thrombosis. Agonism of the inhibitory platelet receptor ACKR3 inhibits hemin-dependent platelet activation and thrombus formation. To characterize the effect of hemin and ACKR3 agonism on isolated human platelets, multi-color flow cytometry and classical experimental setup such as light transmission aggregometry and a flow chamber assay were used. Hemin induces platelet aggregation and ex vivo platelet-dependent thrombus formation on immobilized collagen under a low shear rate of 500 s, indicating that free hemin is a strong activator of platelet-dependent thrombosis. Recently, we described that ACKR3 is a prominent inhibitory receptor of platelet activation. Specific ACKR3 agonists but not conventional antiplatelet compounds such as COX-1 inhibitor (indometacin), ADP-receptor blocker (cangrelor), or PAR1 inhibitor (ML161) inhibit both hemin-dependent aggregation and thrombus formation. To further characterize the effect of hemin on platelet subpopulations, we established a multi-color flow cytometry assay. We found that hemin induces procoagulant (CD42b/PAC-1/AnnexinV), aggregatory (CD42b/PAC-1/AnnexinV), and inflammatory (CD42b/CXCR4/ACKR3/AnnexinV) platelet subpopulations. Treatment with ACKR3 agonists significantly decreased the formation of procoagulant and ACKR3 platelets in response to hemin. We conclude that hemin is a strong activator for the formation of procoagulant platelets and thrombus formation which is dependent on the function of ACKR3. Activation of ACKR3 using specific agonists may offer a therapeutic strategy to regulate the vulnerability of atherosclerotic plaques in areas of IPH.
在易损性动脉粥样硬化斑块中,斑块内出血(IPH)导致红细胞溶血,血红蛋白和游离血红素释放。血红素激活血小板并导致血栓形成。抑制性血小板受体ACKR3的激动作用可抑制血红素依赖性血小板活化和血栓形成。为了表征血红素和ACKR3激动作用对分离的人血小板的影响,使用了多色流式细胞术以及经典实验装置,如透光率聚集测定法和流动腔室测定法。血红素在500 s的低剪切速率下诱导血小板聚集以及在固定化胶原蛋白上的体外血小板依赖性血栓形成,表明游离血红素是血小板依赖性血栓形成的强激活剂。最近,我们描述了ACKR3是血小板活化的主要抑制性受体。特异性ACKR3激动剂而非传统抗血小板化合物,如COX-1抑制剂(吲哚美辛)、ADP受体阻滞剂(坎格雷洛)或PAR1抑制剂(ML161),可抑制血红素依赖性聚集和血栓形成。为了进一步表征血红素对血小板亚群的影响,我们建立了多色流式细胞术测定法。我们发现血红素诱导促凝(CD42b/PAC-1/膜联蛋白V)、聚集(CD42b/PAC-1/膜联蛋白V)和炎性(CD42b/CXCR4/ACKR3/膜联蛋白V)血小板亚群。用ACKR3激动剂处理可显著减少对血红素反应的促凝和ACKR3血小板的形成。我们得出结论,血红素是促凝血小板形成和血栓形成的强激活剂,这依赖于ACKR3的功能。使用特异性激动剂激活ACKR3可能提供一种调节IPH区域动脉粥样硬化斑块易损性的治疗策略。
