Platelet biology and functions: new concepts and clinical perspectives.,Nature Reviews Cardiology

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Platelet biology and functions: new concepts and clinical perspectives.
Nature Reviews Cardiology ( IF 41.7 ) Pub Date : 2019-03-01 , DOI: 10.1038/s41569-018-0110-0
Paola E J van der Meijden ₁ , Johan W M Heemskerk ₁

Affiliation

Platelets - blood cells continuously produced from megakaryocytes mainly in the bone marrow - are implicated not only in haemostasis and arterial thrombosis, but also in other physiological and pathophysiological processes. This Review describes current evidence for the heterogeneity in platelet structure, age, and activation properties, with consequences for a diversity of platelet functions. Signalling processes of platelet populations involved in thrombus formation with ongoing coagulation are well understood. Genetic approaches have provided information on multiple genes related to normal haemostasis, such as those encoding receptors and signalling or secretory proteins, that determine platelet count and/or responsiveness. As highly responsive and secretory cells, platelets can alter the environment through the release of growth factors, chemokines, coagulant factors, RNA species, and extracellular vesicles. Conversely, platelets will also adapt to their environment. In disease states, platelets can be positively primed to reach a pre-activated condition. At the inflamed vessel wall, platelets interact with leukocytes and the coagulation system, interactions mediating thromboinflammation. With current antiplatelet therapies invariably causing bleeding as an undesired adverse effect, novel therapies can be more beneficial if directed against specific platelet responses, populations, interactions, or priming conditions. On the basis of these novel concepts and processes, we discuss several initiatives to target platelets therapeutically.

中文翻译：

血小板生物学和功能：新概念和临床观点。

血小板-由巨核细胞连续产生的血细胞主要在骨髓中产生-不仅与止血和动脉血栓形成有关，而且与其他生理和病理生理过程有关。这篇综述描述了血小板结构，年龄和激活特性异质性的当前证据，并对血小板功能的多样性产生了影响。血栓形成过程中持续凝结的血小板种群的信号传导过程已广为人知。遗传学方法已经提供了与正常止血相关的多个基因的信息，例如那些编码受体和信号或分泌蛋白的基因，这些基因决定了血小板计数和/或反应能力。作为高反应性和分泌性细胞，血小板可以通过释放生长因子来改变环境，趋化因子，凝血因子，RNA种类和细胞外囊泡。相反，血小板也将适应其环境。在疾病状态下，血小板可以被积极地引发以达到预先激活的状态。在发炎的血管壁，血小板与白细胞和凝血系统相互作用，相互作用介导血栓炎症。当前的抗血小板疗法总是会引起出血，这是不希望的不良反应，如果针对特定的血小板反应，人群，相互作用或引发条件，新疗法可能会更加有益。基于这些新颖的概念和过程，我们讨论了针对血小板治疗的几种方案。血小板可以被积极灌注以达到预先激活的状态。在发炎的血管壁，血小板与白细胞和凝血系统相互作用，相互作用介导血栓炎症。当前的抗血小板疗法总是会引起出血，这是不希望的不良反应，如果针对特定的血小板反应，人群，相互作用或引发条件，新疗法可能会更加有益。基于这些新颖的概念和过程，我们讨论了针对血小板治疗的几种方案。血小板可以被积极灌注以达到预先激活的状态。在发炎的血管壁，血小板与白细胞和凝血系统相互作用，相互作用介导血栓炎症。当前的抗血小板疗法总是会引起出血，这是不希望的不良反应，如果针对特定的血小板反应，人群，相互作用或引发条件，新疗法可能会更加有益。基于这些新颖的概念和过程，我们讨论了针对血小板治疗的几种方案。如果针对特定的血小板反应，人群，相互作用或引发条件，新型疗法可能会更加有益。基于这些新颖的概念和过程，我们讨论了针对血小板治疗的几种方案。如果针对特定的血小板反应，人群，相互作用或引发条件，新型疗法可能会更加有益。基于这些新颖的概念和过程，我们讨论了针对血小板治疗的几种方案。

更新日期：2019-01-26

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