Koyama T, Parkinson J F, Sié P, Bang N U, Müller-Berghaus G, Preissner K T
Haemostasis Research Unit, Kerckhoff-Klinik, Bad Nauheim, Federal Republic of Germany.
Eur J Biochem. 1991 Jun 15;198(3):563-70. doi: 10.1111/j.1432-1033.1991.tb16051.x.
The relationship between thrombomodulin-associated O-linked glycosammoglycans (GAGs) and the exogenous GAGs heparin or dermatan sulfate was studied in the inhibition of thrombin by antithrombin III (AT III) or heparin cofactor II (HC II). Both rabbit thrombomodulin (TM) and two glycoforms (a high-Mr form containing GAGs and a low-Mr form lacking the majority of O-linked GAGs) of a recombinant human TM deletion mutant (rec-TM) were used. The rapid inactivation of thrombin by HC II in the presence of dermatan sulfate was prevented by both the high-Mr rec-TM and the rabbit TM. In contrast, both rabbit TM treated with chondroitin ABC lyase to remove O-linked GAGs and the low-Mr form of rec-TM had only weak protecting effects. In the absence of exogeneous dermatan sulfate, thrombin inhibition by a high concentration of HC II was slightly accelerated by the high-Mr form of rec-TM but protected by rabbit TM. When thrombin inhibition by AT III in the presence of heparin was studied, both high-Mr rec-TM and rabbit TM again invoked a similar reduction of inactivation rates, whereas in the absence of exogenous heparin, both high-Mr forms accelerated thrombin inhibition by AT III. The diverse reactivities of various forms of TM towards HC II and AT III were also observed during protein C activation by the thrombin-TM complex. These results suggest that thrombin activity at the vessel wall or in fluid phase may undergo major kinetic modulations depending on the type of protease inhibitor, the presence or absence of exogenous GAGs and the glycosylation phenotype of TM. The dependence of TM anticoagulant function on the presence of an intrinsic GAG moiety suggests that variant glycoforms of this endothelial cell cofactor may be expressed differently in a species-, organ-, or tissue-specific manner as a means to regulate TM function in diverse vasculatures.
研究了抗凝血酶III(AT III)或肝素辅因子II(HC II)对凝血酶的抑制作用中,血栓调节蛋白相关的O-连接糖胺聚糖(GAGs)与外源性GAGs肝素或硫酸皮肤素之间的关系。使用了兔血栓调节蛋白(TM)和重组人TM缺失突变体(rec-TM)的两种糖型(一种含有GAGs的高分子量形式和一种缺乏大部分O-连接GAGs的低分子量形式)。高分子量rec-TM和兔TM均能阻止硫酸皮肤素存在时HC II对凝血酶的快速失活。相比之下,用软骨素ABC裂解酶处理以去除O-连接GAGs的兔TM和rec-TM的低分子量形式仅有微弱的保护作用。在没有外源性硫酸皮肤素的情况下,高浓度HC II对凝血酶的抑制作用被rec-TM的高分子量形式略微加速,但被兔TM保护。当研究肝素存在时AT III对凝血酶的抑制作用时,高分子量rec-TM和兔TM再次使失活速率有类似降低,而在没有外源性肝素时,两种高分子量形式均加速了AT III对凝血酶的抑制作用。在凝血酶-TM复合物激活蛋白C的过程中,也观察到了各种形式的TM对HC II和AT III的不同反应性。这些结果表明,根据蛋白酶抑制剂的类型、外源性GAGs的存在与否以及TM的糖基化表型,血管壁或液相中的凝血酶活性可能会经历主要的动力学调节。TM抗凝功能对内在GAG部分存在的依赖性表明,这种内皮细胞辅因子的变异糖型可能以物种、器官或组织特异性方式不同地表达,作为调节不同脉管系统中TM功能的一种手段。
