通过与 MAGI1 的第一个 PDZ 结构域相互作用调节组织因子的活性

IF 2.6 4区 医学 Q2 HEMATOLOGY Thrombosis Journal Pub Date : 2024-01-17 DOI:10.1186/s12959-023-00580-6
Mohammad A. Mohammad, Sophie Featherby, Camille Ettelaie
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Proximity ligation assay (PLA), co-immunoprecipitation and pull-down experiments were used to examine the interaction of TF with MAGI1-3 proteins and to investigate the influence of PAR2 activation. Furthermore, by cloning and expressing the PDZ domains from MAGI1, the TF-binding domain was identified. The ability of the recombinant PDZ domains to act as competitors for MAGI1, allowing the induction of TF procoagulant and signalling activity was then examined. PLA and fluorescence microscopic analysis indicated that TF predominantly associates with MAGI1 and less with MAGI2 and MAGI3 proteins. The interaction of TF with MAGI1 was also demonstrated by both co-immunoprecipitation of TF with MAGI1, and co-immunoprecipitation of MAGI1 with TF. Moreover, activation of PAR2 resulted in reduction in the association of these two proteins. Pull-down assays using TF-cytoplasmic domain peptides indicated that the phosphorylation of Ser253 within TF prevents its association with MAGI1. 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引用次数: 0

摘要

组织因子(TF)的活性是通过所谓的加密过程严格调节的。TF 的翻译后修饰及其与各种蛋白质和脂质分子的相互作用可使 TF 经过多个步骤解除加密并促进凝血活化。众所周知,膜相关鸟苷酸激酶-倒置构型(MAGI)蛋白可调节包括细胞表面受体在内的多种蛋白的定位和活性。研究人员将 TF 与 MAGI1 蛋白的相互作用作为调节 TF 活性的一种手段。研究使用了表达 TF 和 MAGI1 的 MDA-MB-231 细胞系,它们对蛋白酶激活受体(PAR)2 的激活反应良好。实验采用了邻近连接试验(PLA)、共免疫沉淀和下拉实验来检测 TF 与 MAGI1-3 蛋白的相互作用,并研究 PAR2 激活的影响。此外,通过克隆和表达 MAGI1 的 PDZ 结构域,确定了 TF 结合结构域。然后研究了重组 PDZ 结构域作为 MAGI1 竞争者的能力,从而诱导 TF 促凝和信号活性。PLA 和荧光显微分析表明,TF 主要与 MAGI1 结合,与 MAGI2 和 MAGI3 蛋白的结合较少。TF 与 MAGI1 的共沉淀以及 MAGI1 与 TF 的共沉淀也证明了 TF 与 MAGI1 的相互作用。此外,PAR2 的激活会导致这两种蛋白的结合减少。使用 TF 细胞质结构域多肽进行的牵引试验表明,TF 内 Ser253 的磷酸化会阻止其与 MAGI1 的结合。此外,还分别过表达了 MAGI1 的五个 HA 标记 PDZ 结构域,并确定了推定的 TF 结合结构域为 PDZ1 结构域。在细胞中表达该 PDZ 结构域可显著增强 TF 活性,包括凝血酶生成和 TF 介导的增殖信号。我们的数据表明,TF 与 MAGI1 的 PDZ-1 结构域之间存在稳定的相互作用,并证明 PAR2 的激活会破坏这种相互作用。TF 从 MAGI1 中释放似乎是 TF 解密的第一步,这与 TF 介导的促凝血和信号活动增加有关。这一机制还可能导致进一步的相互作用和修饰,从而进一步增强促凝活性或释放 TF。
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Regulation of tissue factor activity by interaction with the first PDZ domain of MAGI1
Tissue factor (TF) activity is stringently regulated through processes termed encryption. Post-translational modification of TF and its interactions with various protein and lipid moieties allows for a multi-step de-encryption of TF and procoagulant activation. Membrane-associated guanylate kinase-with inverted configuration (MAGI) proteins are known to regulate the localisation and activity of a number of proteins including cell-surface receptors. The interaction of TF with MAGI1 protein was examined as a means of regulating TF activity. MDA-MB-231 cell line was used which express TF and MAGI1, and respond well to protease activated receptor (PAR)2 activation. Proximity ligation assay (PLA), co-immunoprecipitation and pull-down experiments were used to examine the interaction of TF with MAGI1-3 proteins and to investigate the influence of PAR2 activation. Furthermore, by cloning and expressing the PDZ domains from MAGI1, the TF-binding domain was identified. The ability of the recombinant PDZ domains to act as competitors for MAGI1, allowing the induction of TF procoagulant and signalling activity was then examined. PLA and fluorescence microscopic analysis indicated that TF predominantly associates with MAGI1 and less with MAGI2 and MAGI3 proteins. The interaction of TF with MAGI1 was also demonstrated by both co-immunoprecipitation of TF with MAGI1, and co-immunoprecipitation of MAGI1 with TF. Moreover, activation of PAR2 resulted in reduction in the association of these two proteins. Pull-down assays using TF-cytoplasmic domain peptides indicated that the phosphorylation of Ser253 within TF prevents its association with MAGI1. Additionally, the five HA-tagged PDZ domains of MAGI1 were overexpressed separately, and the putative TF-binding domain was identified as PDZ1 domain. Expression of this PDZ domain in cells significantly augmented the TF activity measured both as thrombin-generation and also TF-mediated proliferative signalling. Our data indicate a stabilising interaction between TF and the PDZ-1 domain of MAGI1 and demonstrate that the activation of PAR2 disrupts this interaction. The release of TF from MAGI1 appears to be an initial step in TF de-encryption, associated with increased TF-mediated procoagulant and signalling activities. This mechanism is also likely to lead to further interactions and modifications leading to further enhancement of procoagulant activity, or the release of TF.
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来源期刊
Thrombosis Journal
Thrombosis Journal Medicine-Hematology
CiteScore
3.80
自引率
3.20%
发文量
69
审稿时长
16 weeks
期刊介绍: Thrombosis Journal is an open-access journal that publishes original articles on aspects of clinical and basic research, new methodology, case reports and reviews in the areas of thrombosis. Topics of particular interest include the diagnosis of arterial and venous thrombosis, new antithrombotic treatments, new developments in the understanding, diagnosis and treatments of atherosclerotic vessel disease, relations between haemostasis and vascular disease, hypertension, diabetes, immunology and obesity.
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