Anticoagulant Activity of Heparins from Different Animal Sources are Driven by a Synergistic Combination of Physical-chemical Factors.

TH Open: Companion Journal to Thrombosis and Haemostasis Pub Date : 2022-10-11 eCollection Date: 2022-10-01 DOI:10.1055/a-1946-0325
Stephan N M C G Oliveira, Ana M F Tovar, Francisco F Bezerra, Adriana A Piquet, Nina V Capillé, Paloma S Santos, Eduardo Vilanova, Paulo A S Mourão
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引用次数: 2

Abstract

Heparin has already been found in a variety of animal tissues but only few of them became effective sources for production of pharmaceutical preparations. Here, we correlate physical-chemical features and anticoagulant activities of structurally similar heparins employed in the past (from bovine lung, HBL), in the present (from porcine intestine, HPI) and in development for future use (from ovine intestine, HOI). Although they indeed have similar composition, our physical-chemical analyses with different chromatography and spectrometric techniques show that both HOI and HBL have molecular size notably lower than HPI and that the proportions of some of their minor saccharide components can vary substantially. Measurements of anticoagulant activities with anti-FIIa and anti-FXa assays confirmed that HPI and HOI have potency similar each other but significantly higher than HBL. Such a lower activity of HBL has been attributed to its reduced molecular size. Considering that HOI also has reduced molecular size, we find that its increased anticoagulant potency might result from an improved affinity to antithrombin (three times higher than HBL) promoted by the high content of N ,3,6-trisulfated glucosamine units, which in turn are directly involved in the heparin-antithrombin binding. Therefore, the anticoagulant activity of different heparins is driven by a balance between different physical-chemical components, especially molecular size and fine-tuning composition. Although such minor but relevant chemical differences reinforce the concept that heparins from different animal sources should indeed be considered as distinct drugs, HOI could be approved for interchangeable use with the gold standard HPI and as a suitable start material for producing new LMWHs.

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来自不同动物来源的肝素的抗凝血活性是由物理化学因素的协同组合驱动的。
肝素已经在多种动物组织中被发现,但只有少数成为生产药物制剂的有效来源。在这里,我们将结构相似的肝素的物理化学特征和抗凝血活性联系起来,这些肝素在过去(来自牛肺,HBL)、现在(来自猪肠,HPI)和未来开发中使用(来自羊肠,HOI)。虽然它们确实具有相似的组成,但我们使用不同的色谱和光谱技术进行的物理化学分析表明,HOI和HBL的分子大小明显低于HPI,并且它们的一些次要糖成分的比例可以有很大差异。用抗fiia和抗fxa测定抗凝血活性,证实HPI和HOI的效力相似,但明显高于HBL。HBL活性降低的原因是其分子尺寸减小。考虑到HOI的分子大小也减小了,我们发现其抗凝效力的增强可能是由于高含量的N,3,6-三硫酸氨基葡萄糖单元提高了对抗凝血酶的亲和力(比HBL高3倍),而N,3,6-三硫酸氨基葡萄糖单元又直接参与肝素-抗凝血酶的结合。因此,不同肝素的抗凝活性是由不同物理化学成分之间的平衡驱动的,特别是分子大小和微调组成。虽然这些微小但相关的化学差异强化了不同动物来源的肝素确实应该被视为不同药物的概念,但HOI可以被批准与金标准HPI互换使用,并作为生产新的低分子肝素的合适起始材料。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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