聚乙二醇白蛋白中聚乙二醇壳的堆积密度:聚乙二醇化引起的黏度和COP与堆积密度成反比。

K Ananda, Belur N Manjula, Fantao Meng, Vivek N Acharya, Marcos Intaglietta, Seetharama A Acharya
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引用次数: 7

摘要

PEG-Alb是一种新型的低黏度血浆扩张剂,通过模拟高黏度血浆扩张剂的血管扩张作用,在体内实现超灌注。聚乙二醇白蛋白的聚乙二醇化工程结构可以设想为围绕刚性中心蛋白核心的可变形分子结构域。研究了聚乙二醇链的长度和数目与聚乙二醇化诱导的血浆膨胀剂(PE)样白蛋白特性之间的关系。在聚乙二醇化过程中,白蛋白分子半径的增加与聚乙二醇链的数目呈非线性关系。聚乙二醇在壳内的堆积密度与聚乙二醇链的大小成反比;也就是说,较短的链条比较长的链条更紧密。聚乙二醇化引起的白蛋白黏度和COP的增加与环氧乙烷(- ch (2)- ch (2)- o -)共轭单位数呈指数相关,也是聚乙二醇链长度的函数。在PEG质量共轭的等效条件下,PEG-白蛋白加合物的粘度和COP与PEG的堆积密度成反比。所有聚乙二醇化的白蛋白在聚乙二醇总质量的基础上是不相等的。因此,PEG白蛋白的结构及其溶液性质可以被设计为优化给定的PEG总质量,用于PEG白蛋白作为复苏液的应用。延伸臂将PEG壳对蛋白核结构的影响降至最低。我们推测EAF-PEGylation是蛋白质治疗药物PEGylation的较好平台,有望产生具有更好治疗效果的产品。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Packing density of the PEG-shell in PEG-albumins: PEGylation induced viscosity and COP are inverse correlate of packing density.

PEG-Alb represents a new class of low viscogenic plasma expanders that achieve super perfusion in vivo by mimicking the vasodilatory influence of high viscogenic plasma expanders. PEGylation-engineered structure of PEG albumin can be envisaged as a deformable molecular domain around the rigid central protein core. The correlation between the structure of PEG-shell in terms of packing of the PEG inside the PEG shell and PEGylation induced plasma expander (PE)-like properties of albumin has been investigated as a function of the number and length of the PEG-chain. The increase in molecular radius of albumin on PEGylation is non-linear as a function of the number of PEG chains conjugated. The packing density of PEG within the PEG-shell is an inverse correlate of PEG-chain size; i.e. the shorter chains pack more compactly than the longer ones. The PEGylation induced increase in the viscosity and COP of albumin is an exponential correlation of the number of ethylene oxide units (-CH(2)-CH(2)-O-) conjugated and is also a function of the PEG-chain length. At equivalence of PEG mass conjugated, the viscosity and COP of PEG-albumin adducts correlate inversely with packing density of PEG. All PEGylated albumins are not equivalent on the basis of total PEG mass conjugated. Accordingly, the structure of PEG albumin and its solution properties can be engineered to optimize a given total PEG mass for the application of PEG albumin as a resuscitation fluid. The extension arms minimize the influence of PEG shell on the structure of the protein core. We speculate that EAF-PEGylation is a preferable platform for PEGylation of protein therapeutics and is expected to generate products with better therapeutic efficacy.

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