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牛血清白蛋白溶液的旋转流变学:杂质的混杂效应、机制考虑以及对蛋白质配方开发的潜在影响。

Rotational Rheology of Bovine Serum Albumin Solutions: Confounding Effects of Impurities, Mechanistic Considerations and Potential Implications on Protein Formulation Development.

机构信息

Drug Product Technology, Amgen Inc., MS 8-1-C, One Amgen Center Drive, Thousand Oaks, CA, 91320, USA.

Biological Relevance and Characterization, Amgen Inc., MS 8-1-C, One Amgen Center Drive, Thousand Oaks, CA, 91320, USA.

出版信息

Pharm Res. 2018 Jun 14;35(8):157. doi: 10.1007/s11095-018-2423-4.

DOI:10.1007/s11095-018-2423-4
PMID:29904795
Abstract

PURPOSE

To show and rationalize the confounding effects on the rotational/oscillatory rheology of surface active impurities in commercial protein formulations such as bovine serum albumin, BSA.

METHODS

Bulk and interfacial rotational/oscillatory rheology were used to study the viscosity, complex viscosity, storage/elastic modulus, G' and loss/viscous modulus, G", as a function of time of aqueous formulations of BSA and their purified components.

RESULTS

Viscosity/time profiles at steady shear for different commercial BSA products and lots showed viscosity increase, decrease and time-independent profiles at low shear rates. All lots showed shear thinning. BSA monomer and dimers/aggregates, in general, showed similar profiles. Addition of low levels of surfactant or high shear rates rendered all solutions to be Newtonian-like. Interfacial viscosity studies paralleled those on the rotational rheometer. G' > G" with viscosity increase and G' < G" with viscosity decrease over time.

CONCLUSIONS

We provide a rational explanation for the time-dependent and source-dependent rheological behavior of aqueous formulations of commercially available BSA proteins based on the migration of protein and surface active impurities to the air/water interface within the rheometer plates leading to the formation and breakdown of protein networks. Highly purified proteins is warranted in rheological studies of protein drug product candidates.

摘要

目的

展示并合理化表面活性剂杂质在商业蛋白制剂(如牛血清白蛋白,BSA)的旋转/振荡流变学中的干扰作用。

方法

使用体相和界面旋转/振荡流变学来研究 BSA 及其纯化成分的水性制剂的粘度、复数粘度、储能/弹性模量 G'和损耗/粘性模量 G"随时间的变化。

结果

不同商业 BSA 产品和批次的稳态剪切粘度/时间曲线显示,在低剪切速率下,粘度会增加、减少或保持不变。所有批次均表现出剪切稀化。BSA 单体和二聚体/聚集体通常表现出相似的曲线。添加低水平的表面活性剂或高剪切速率会使所有溶液呈现牛顿型。界面粘度研究与旋转流变仪的研究相平行。随着时间的推移,G'大于 G",粘度增加,G'小于 G",粘度减少。

结论

我们基于在流变仪板内蛋白质和表面活性剂杂质向气/水界面的迁移,导致蛋白质网络的形成和破裂,对市售 BSA 蛋白水性制剂的时间依赖性和来源依赖性流变行为提供了合理的解释。在蛋白药物候选物的流变学研究中,需要使用高度纯化的蛋白质。

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Soft Matter. 2014 Jan 7;10(1):122-31. doi: 10.1039/c3sm51994e.
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