离子强度和糖对单克隆抗体聚集倾向的影响：胶态和构象稳定性的影响。

Effects of ionic strength and sugars on the aggregation propensity of monoclonal antibodies: influence of colloidal and conformational stabilities.

机构信息

Analytical & Quality Evaluation Research Laboratories, Daiichi Sankyo Co., Ltd., 1-12-1, Shinomiya, Hiratsuka-shi, Kanagawa, 254-0014, Japan.

出版信息

Pharm Res. 2013 May;30(5):1263-80. doi: 10.1007/s11095-012-0965-4. Epub 2013 Jan 15.

DOI:10.1007/s11095-012-0965-4

PMID:23319172

Abstract

PURPOSE

To develop a general strategy for optimizing monoclonal antibody (MAb) formulations.

METHODS

Colloidal stabilities of four representative MAbs solutions were assessed based on the second virial coefficient (B 2) at 20°C and 40°C, and net charges at different NaCl concentrations, and/or in the presence of sugars. Conformational stabilities were evaluated from the unfolding temperatures. The aggregation propensities were determined at 40°C and after freeze-thawing. The electrostatic potential of antibody surfaces was simulated for the development of rational formulations.

RESULTS

Similar B 2 values were obtained at 20°C and 40°C, implying little dependence on temperature. B 2 correlated quantitatively with aggregation propensities at 40°C. The net charge partly correlated with colloidal stability. Salts stabilized or destabilized MAbs, depending on repulsive or attractive interactions. Sugars improved the aggregation propensity under freeze-thaw stress through improved conformational stability. Uneven and even distributions of potential surfaces were attributed to attractive and strong repulsive electrostatic interactions.

CONCLUSIONS

Assessment of colloidal stability at the lowest ionic strength is particularly effective for the development of formulations. If necessary, salts are added to enhance the colloidal stability. Sugars further improved aggregation propensities by enhancing conformational stability. These behaviors are rationally predictable according to the surface potentials of MAbs.

摘要

目的

开发一种优化单克隆抗体（MAb）制剂的通用策略。

方法

基于 20°C 和 40°C 时的第二维里系数（B2）以及不同 NaCl 浓度下的净电荷和/或糖存在时的胶体稳定性，评估了四种代表性 MAb 溶液的胶体稳定性。通过展开温度评估构象稳定性。在 40°C 下和冻融后确定聚集倾向。模拟抗体表面的静电势以开发合理的配方。

结果

在 20°C 和 40°C 下获得了相似的 B2 值，表明对温度的依赖性很小。B2 与 40°C 下的聚集倾向定量相关。净电荷部分与胶体稳定性相关。盐根据排斥或吸引相互作用稳定或不稳定 MAb。糖通过改善构象稳定性在冻融应激下提高了聚集倾向。不均匀和均匀的电位表面分布归因于吸引力和强排斥静电相互作用。

结论

在最低离子强度下评估胶体稳定性对于制剂的开发特别有效。如有必要，可添加盐以增强胶体稳定性。糖通过增强构象稳定性进一步提高聚集倾向。根据 MAb 的表面电势，可以合理预测这些行为。

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离子强度和糖对单克隆抗体聚集倾向的影响：胶态和构象稳定性的影响。

Effects of ionic strength and sugars on the aggregation propensity of monoclonal antibodies: influence of colloidal and conformational stabilities.

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出版信息

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