Thermal aggregation of recombinant protective antigen: aggregate morphology and growth rate.

Daniel J Belton, Aline F Miller
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Abstract

The thermal aggregation of the biopharmaceutical protein recombinant protective antigen (rPA) has been explored, and the associated kinetics and thermodynamic parameters have been extracted using optical and environmental scanning electron microscopies (ESEMs) and ultraviolet light scattering spectroscopy (UV-LSS). Visual observations and turbidity measurements provided an overall picture of the aggregation process, suggesting a two-step mechanism. Microscopy was used to examine the structure of aggregates, revealing an open morphology formed by the clustering of the microscopic aggregate particles. UV-LSS was used and developed to elucidate the growth rate of these particles, which formed in the first stage of the aggregation process. Their growth rate is observed to be high initially, before falling to converge on a final size that correlates with the ESEM data. The results suggest that the particle growth rate is limited by rPA monomer concentration, and by obtaining data over a range of incubation temperatures, an approach was developed to model the aggregation kinetics and extract the rate constants and the temperature dependence of aggregation. In doing so, we quantified the susceptibility of rPA aggregation under different temperature and environmental conditions and moreover demonstrated a novel use of UV spectrometry to monitor the particle aggregation quantitatively, in situ, in a nondestructive and time-resolved manner.

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重组保护性抗原的热聚集:聚集体形态和生长速度。
利用光学和环境扫描电子显微镜(ESEM)以及紫外光散射光谱仪(UV-LSS)探索了生物制药蛋白质重组保护性抗原(rPA)的热聚集过程,并提取了相关的动力学和热力学参数。肉眼观察和浊度测量提供了聚合过程的全貌,表明这是一个两步机制。显微镜用于检查聚合体的结构,发现微观聚合体颗粒的聚集形成了一种开放的形态。使用并开发了紫外-可见光谱仪(UV-LSS),以阐明这些在聚集过程第一阶段形成的颗粒的生长速度。观察到它们的生长率最初很高,然后逐渐下降,最终大小与 ESEM 数据一致。结果表明,颗粒的生长速度受 rPA 单体浓度的限制,通过获得一系列培养温度下的数据,我们开发出一种方法来建立聚集动力学模型,并提取聚集的速率常数和温度依赖性。在此过程中,我们量化了 rPA 在不同温度和环境条件下的聚集敏感性,此外,我们还展示了紫外光谱法的新用途,即以无损和时间分辨的方式原位定量监测粒子聚集。
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