糖胺聚糖通过瞬时相互作用促进淀粉样免疫球蛋白轻链形成纤维。
Glycosaminoglycans promote fibril formation by amyloidogenic immunoglobulin light chains through a transient interaction.
机构信息
Department of Biochemistry and Molecular Biology, Mayo Clinic, Rochester, MN 55905, USA.
出版信息
Biophys Chem. 2011 Sep;158(1):81-9. doi: 10.1016/j.bpc.2011.05.011. Epub 2011 May 18.
Abstract
Amyloid formation occurs when a precursor protein misfolds and aggregates, forming a fibril nucleus that serves as a template for fibril growth. Glycosaminoglycans are highly charged polymers known to associate with tissue amyloid deposits that have been shown to accelerate amyloidogenesis in vitro. We studied two immunoglobulin light chain variable domains from light chain amyloidosis patients with 90% sequence identity, analyzing their fibril formation kinetics and binding properties with different glycosaminoglycan molecules. We find that the less amyloidogenic of the proteins shows a weak dependence on glycosaminoglycan size and charge, while the more amyloidogenic protein responds only minimally to changes in the glycosaminoglycan. These glycosaminoglycan effects on fibril formation do not depend on a stable interaction between the two species but still show characteristic traits of an interaction-dependent mechanism. We propose that transient, predominantly electrostatic interactions between glycosaminoglycans and the precursor proteins mediate the acceleration of fibril formation in vitro.
摘要
淀粉样蛋白形成发生在前体蛋白错误折叠和聚集时,形成纤维核,作为纤维生长的模板。糖胺聚糖是高度带电的聚合物,已知与组织淀粉样沉积物有关,体外研究表明它们会加速淀粉样蛋白形成。我们研究了来自轻链淀粉样变性患者的两个免疫球蛋白轻链可变区,它们具有 90%的序列同一性,分析了它们的纤维形成动力学和与不同糖胺聚糖分子的结合特性。我们发现,其中一种蛋白质的淀粉样形成能力较弱,对糖胺聚糖的大小和电荷依赖性较弱,而另一种淀粉样形成能力较强的蛋白质对糖胺聚糖的变化反应极小。这些糖胺聚糖对纤维形成的影响并不依赖于两种物质之间的稳定相互作用,但仍显示出相互作用依赖性机制的特征。我们提出,糖胺聚糖和前体蛋白之间的瞬时、主要是静电相互作用介导了体外纤维形成的加速。
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