正交高通量热扫描法对蛋白质制剂进行排序。
Orthogonal high-throughput thermal scanning method for rank ordering protein formulations.
机构信息
Drug Product Science and Technology, Bristol-Myers Squibb, 1 Squibb Drive, New Brunswick, New Jersey, 08903, USA,
出版信息
AAPS PharmSciTech. 2013 Dec;14(4):1360-6. doi: 10.1208/s12249-013-0026-2. Epub 2013 Sep 4.
Abstract
A high-throughput thermal-scanning method to rank-order formulation conditions for therapeutic proteins is described. Apparent transition temperatures for unfolding and aggregation of four different proteins are determined using the dyes SYPRO Orange and thioflavin T (ThT) under a variety of buffer conditions. The results indicate that the ThT-based thermal scanning method offers several advantages over the previously described SYPRO Orange-based thermal scanning and allows rapid rank ordering of solution conditions relevant toward long-term storage of therapeutic molecules. The method is also amenable to high protein concentration and does not require sample dilution or extensive preparation. Additionally, this parallel use of SYPRO Orange and ThT can be readily applied to the screening of mutants for their unfolding and aggregation propensities.
摘要
一种高通量的热扫描方法,用于对治疗性蛋白质的配方条件进行排序,本文对此进行了描述。在各种缓冲条件下,使用染料 SYPRO Orange 和硫黄素 T(ThT)来测定四种不同蛋白质的展开和聚集的明显转变温度。结果表明,与先前描述的基于 SYPRO Orange 的热扫描相比,基于 ThT 的热扫描方法具有多个优势,并允许对与治疗分子长期储存相关的溶液条件进行快速排序。该方法也适用于高蛋白质浓度,并且不需要样品稀释或广泛的准备。此外,SYPRO Orange 和 ThT 的这种并行使用可以很容易地应用于突变体的筛选,以了解它们的展开和聚集倾向。
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