Department of General Pharmacology, Center of Drug Absorption and Transport (C_DAT), Greifswald, Germany; German Center for Cardiovascular Research (DZHK), Partner Site Greifswald.
Department of General Pharmacology, Center of Drug Absorption and Transport (C_DAT), Greifswald.
Haematologica. 2022 Sep 1;107(9):2206-2217. doi: 10.3324/haematol.2021.279761.
The multidrug resistance protein 4 (MRP4) is highly expressed in platelets and several lines of evidence point to an impact on platelet function. MRP4 represents a transporter for cyclic nucleotides as well as for certain lipid mediators. The aim of the present study was to comprehensively characterize the effect of a short-time specific pharmacological inhibition of MRP4 on signaling pathways in platelets. Transport assays in isolated membrane vesicles showed a concentrationdependent inhibition of MRP4-mediated transport of cyclic nucleotides, thromboxane (Tx)B2 and fluorescein (FITC)- labeled sphingosine-1-phosphate (S1P) by the selective MRP4 inhibitor Ceefourin-1. In ex vivo aggregometry studies in human platelets, Ceefourin-1 significantly inhibited platelet aggregation by about 30-50% when ADP or collagen was used as activating agents, respectively. Ceefourin-1 significantly lowered the ADP-induced activation of integrin aIIbb3, indicated by binding of FITC-fibrinogen (about 50% reduction at 50 mM Ceefourin-1), and reduced calcium influx. Furthermore, pre-incubation with Ceefourin-1 significantly increased PGE1- and cinaciguat-induced vasodilatorstimulated phosphoprotein (VASP) phosphorylation, indicating increased cytosolic cAMP as well as cGMP concentrations, respectively. The release of TxB2 from activated human platelets was also attenuated. Finally, selective MRP4 inhibition significantly reduced both the total area covered by thrombi and the average thrombus size by about 40% in a flow chamber model. In conclusion, selective MRP4 inhibition causes reduced platelet adhesion and thrombus formation under flow conditions. This finding is mechanistically supported by inhibition of integrin aIIbb3 activation, elevated VASP phosphorylation and reduced calcium influx, based on inhibited cyclic nucleotide and thromboxane transport as well as possible further mechanisms.
多药耐药相关蛋白 4(MRP4)在血小板中高度表达,有多项证据表明其对血小板功能有影响。MRP4 是环核苷酸以及某些脂质介质的转运体。本研究旨在全面研究短期特异性 MRP4 药理学抑制对血小板信号通路的影响。在分离的膜囊泡中进行的转运实验表明,选择性 MRP4 抑制剂 Ceefourin-1 浓度依赖性地抑制 MRP4 介导的环核苷酸、血栓烷(Tx)B2 和荧光素(FITC)标记的鞘氨醇-1-磷酸(S1P)的转运。在人血小板的体外聚集研究中,当分别使用 ADP 或胶原蛋白作为激活剂时,Ceefourin-1 显著抑制血小板聚集约 30-50%。Ceefourin-1 显著降低 ADP 诱导的整合素 aIIbb3 激活,表现为 FITC-纤维蛋白原结合减少(在 50 mM Ceefourin-1 时约减少 50%),并减少钙内流。此外,Ceefourin-1 的预孵育显著增加 PGE1 和 cinaciguat 诱导的血管扩张刺激磷蛋白(VASP)磷酸化,分别表明细胞溶质 cAMP 和 cGMP 浓度增加。激活的人血小板中 TxB2 的释放也被减弱。最后,在流动室模型中,选择性 MRP4 抑制显著减少了血栓形成的总面积和平均血栓大小,分别减少约 40%。总之,选择性 MRP4 抑制在流动条件下导致血小板黏附和血栓形成减少。这种发现基于抑制环核苷酸和血栓烷转运以及可能的其他机制,得到整合素 aIIbb3 激活抑制、VASP 磷酸化升高和钙内流减少的机制支持。
