整合素
止血
血小板
细胞生物学
血小板活化
CD47型
化学
医学
细胞粘附
受体
生物
细胞
免疫学
生物化学
内科学
作者
Daniel Thomas MacKeigan,Tiffany Ni,Chuanbin Shen,Tyler W. Stratton,Wenjing Ma,Guangheng Zhu,Preeti Bhoria,Heyu Ni
出处
期刊:Cardiovascular and Hematological Disorders - Drug Targets
[Bentham Science]
日期:2021-01-13
卷期号:20 (4): 260-273
被引量:8
标识
DOI:10.2174/1871529x20666201001144541
摘要
Platelets are small blood cells known primarily for their ability to adhere and aggregate at injured vessels to arrest bleeding. However, when triggered under pathological conditions, the same adaptive mechanism of platelet adhesion and aggregation may cause thrombosis, a primary cause of heart attack and stroke. Over recent decades, research has made considerable progress in uncovering the intricate and dynamic interactions that regulate these processes. Integrins are heterodimeric cell surface receptors expressed on all metazoan cells that facilitate cell adhesion, movement, and signaling, to drive biological and pathological processes such as thrombosis and hemostasis. Recently, our group discovered that the plexin-semaphorin-integrin (PSI) domains of the integrin β subunits exert endogenous thiol isomerase activity derived from their two highly conserved CXXC active site motifs. Given the importance of redox reactions in integrin activation and its location in the knee region, this PSI domain activity may be critically involved in facilitating the interconversions between integrin conformations. Our monoclonal antibodies against the β3 PSI domain inhibited its thiol isomerase activity and proportionally attenuated fibrinogen binding and platelet aggregation. Notably, these antibodies inhibited thrombosis without significantly impairing hemostasis or causing platelet clearance. In this review, we will update mechanisms of thrombosis and hemostasis, including platelet versatilities and immune-mediated thrombocytopenia, discuss critical contributions of the newly discovered PSI domain thiol isomerase activity, and its potential as a novel target for anti-thrombotic therapies and beyond.
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