Downregulation of thrombomodulin-thrombin-activated protein C pathway as a mechanism for SARS-CoV-2 induced endotheliopathy and microvascular thrombosis

Q4 Medicine Thrombosis Update Pub Date : 2022-08-01 DOI:10.1016/j.tru.2022.100116

S. Agarwal , C.T. Cohen , M. Zobeck , P.M. Jacobi , S.E. Sartain

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Abstract

There is emerging evidence of microvascular thrombosis and thrombotic microangiopathy (TMA) induced by COVID-19, presumably from endothelial injury. Thrombomodulin (TM) is an endothelial glycoprotein that plays a dual role in maintaining healthy endothelium-as a natural anticoagulant by binding thrombin to activate protein C (APC) and a negative regulator of the alternate complement pathway (AP). TM is shed into the plasma as soluble TM (sTM) during endothelial injury.

We hypothesize that SARS-CoV-2 spike proteins cause direct microvascular endothelial injury, leading to TM shedding, decreased activation of PC, and consequently, microvascular thrombosis in COVID-19. We conducted this study twofold: 1) in vivo, we assessed endothelial injury (by measuring sTM) and AP activation by quantifying Ba (cleavage product of AP component Factor B) in a cohort of critically ill COVID-19 pediatric patients and the implications on clinical outcomes; and 2)in vitro, we investigated endothelial injury (TM shedding) by SARS-COV-2 spike proteins and the subsequent functional consequence in activated PC (APC) levels and Ba levels.

sTM and Ba in plasma samples from SARS-CoV-2 positive patients admitted to Texas Children's Hospital Pediatric Intensive Care Unit (n = 33) and from healthy controls (n = 38) were measured by ELISA. In vitro, confluent glomerular microvascular endothelial cells (GMVECs) were incubated for 48 h in the presence or absence (control) of purified SARS-CoV-2 spike proteins, S1 and S2. TM from the cell lysates while Ba and APC from the cell supernatants were measured by ELISA. sTM and Ba levels were significantly higher in the COVID-19 pediatric patients compared to healthy controls (p < 0.01 and p < 0.001, respectively). Among the COVID-19 patients, elevated sTM was associated with increased vasopressor use (p = 0.01) and elevated Ba was associated with increased duration of mechanical ventilation (p = 0.04). In vitro, surface bound TM and soluble APC were significantly lower in GMVECs after addition of spike proteins (p < 0.05), while Ba was undetectable in both control and spike proteins exposed GMVECs.

In conclusion, we provide evidence of endothelial injury in COVID-19 pediatric patients and demonstrate a potential pathway of SARS-CoV-2 induced thrombosis. Decreased surface-bound TM results in lower amount of thrombin-TM complex, hence lesser activation of PC, likely leading to a pro-thrombotic state. These findings in GMVECs could explain the vulnerability of kidneys to COVID-19-induced TMA.

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下调血栓调节蛋白-凝血酶激活蛋白C通路在SARS-CoV-2诱导的内皮病变和微血管血栓形成中的作用机制

有新的证据表明，COVID-19可能由内皮损伤引起微血管血栓形成和血栓性微血管病变(TMA)。凝血调节蛋白(Thrombomodulin, TM)是一种内皮糖蛋白，在维持健康的内皮中起双重作用——作为一种天然抗凝剂，通过结合凝血酶激活蛋白C (APC)和替代补体途径(AP)的负调节因子。在内皮损伤过程中，TM以可溶性TM (sTM)的形式进入血浆。我们假设SARS-CoV-2刺突蛋白直接引起微血管内皮损伤，导致TM脱落，PC激活降低，从而导致COVID-19微血管血栓形成。我们进行了两方面的研究:1)在体内，我们评估了COVID-19危重儿科患者队列中的内皮损伤(通过测量sTM)和AP激活(通过量化Ba (AP成分因子B的裂解产物))及其对临床结果的影响;2)在体外，我们研究了SARS-COV-2刺突蛋白对内皮细胞的损伤(TM脱落)及其对激活的PC (APC)水平和Ba水平的功能影响。采用酶联免疫吸附试验(ELISA)测定了美国德克萨斯州儿童医院儿科重症监护病房收治的SARS-CoV-2阳性患者(33例)和健康对照(38例)血浆样品中的sTM和Ba含量。体外，在存在或不存在纯化的SARS-CoV-2刺突蛋白S1和S2(对照)的情况下，将融合型肾小球微血管内皮细胞(GMVECs)孵育48小时。酶联免疫吸附法测定细胞裂解液中的TM和细胞上清液中的Ba和APC。与健康对照组相比，COVID-19患儿的sTM和Ba水平显著升高(p <0.01和p <分别为0.001)。在COVID-19患者中，sTM升高与血管加压药物使用增加相关(p = 0.01)， Ba升高与机械通气时间增加相关(p = 0.04)。在体外，添加刺突蛋白后，GMVECs中表面结合的TM和可溶性APC显著降低(p <0.05)，而Ba在暴露于刺突蛋白的gmvec中均未检测到。总之，我们提供了COVID-19儿童患者内皮损伤的证据，并证明了SARS-CoV-2诱导血栓形成的潜在途径。表面结合的TM减少导致凝血酶TM复合物的数量减少，因此PC的激活减少，可能导致促血栓形成状态。这些在GMVECs中的发现可以解释肾脏对covid -19诱导的TMA的脆弱性。

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