Liu Wei, Wang D Q, Nail Steven L
Department of Industrial and Physical Pharmacy, Purdue University, 1336 Robert Heine Building, West Lafayette, IN, USA.
AAPS PharmSciTech. 2005 Sep 30;6(2):E150-7. doi: 10.1208/pt060223.
The purpose of this study was to investigate the effect of sucrose-glycine excipient systems on the stability of selected model proteins during lyophilization. Recovery of protein activity after freeze-drying was examined for the model proteins lactate dehydrogenase and glucose 6-phosphate dehydrogenase in a sucrose-glycine-based excipient system in which the formulation composition was systematically varied. In a sucrose-only excipient system, activity recovery of both model proteins is about 80% and is independent of sucrose concentration over a range from 1 to 40 mg/mL. When both sucrose and glycine are used and the ratio of the 2 excipients is varied, however, activity recovery decreases in a pattern that is consistent with the inhibition of activity recovery by glycine crystals, despite the presence of an adequate amount of sucrose to afford protection. Annealing of sucrose-glycine formulations causes a small but significant decrease in activity recovery relative to unannealed controls, whereas no annealing effect is observed with sucrose-only formulations. Addition of 0.01% polysorbate 80 to the formulation resulted in complete recovery of activity, irrespective of the sucrose-glycine ratio or annealing. Addition of the same concentration of polysorbate 80 to the reconstitution medium caused an increase in activity recovery for each formulation, but the overall pattern remained unchanged. The data are consistent with an interfacial model for lyophilization-associated loss of protein activity involving denaturation at a solid/freeze-concentrate interface.
本研究的目的是调查蔗糖 - 甘氨酸赋形剂系统对选定模型蛋白冻干过程中稳定性的影响。在基于蔗糖 - 甘氨酸的赋形剂系统中,系统地改变配方组成,检测了模型蛋白乳酸脱氢酶和葡萄糖6 - 磷酸脱氢酶冻干后的蛋白活性回收率。在仅含蔗糖的赋形剂系统中,两种模型蛋白的活性回收率约为80%,且在1至40mg/mL的浓度范围内与蔗糖浓度无关。然而,当同时使用蔗糖和甘氨酸且两种赋形剂的比例变化时,尽管存在足够量的蔗糖提供保护,但活性回收率仍以与甘氨酸晶体抑制活性回收率一致的模式下降。与未退火的对照相比,蔗糖 - 甘氨酸配方的退火导致活性回收率有小幅但显著的下降,而仅含蔗糖的配方未观察到退火效应。向配方中添加0.01%的聚山梨酯80可使活性完全恢复,与蔗糖 - 甘氨酸比例或退火无关。向重构介质中添加相同浓度的聚山梨酯80会使每种配方的活性回收率增加,但总体模式保持不变。这些数据与冻干相关的蛋白活性损失的界面模型一致,该模型涉及在固体/冷冻浓缩物界面处的变性。