Moazami Goodarzi Maryam, Jalalirad Reza, Doroud Delaram, Hozouri Hamidreza, Aghasadeghi Mohammad Reza
Department of Research and Development, Production and Research Complex, Pasteur Institute of Iran, 3159915111, Karaj, Iran.
Department of Hepatitis and AIDS, Pasteur Institute of Iran, 1316943551, Tehran, Iran.
Heliyon. 2024 Jul 24;10(15):e35124. doi: 10.1016/j.heliyon.2024.e35124. eCollection 2024 Aug 15.
The multimodal chromatography resins, such as Capto adhere, are considered good candidates to be utilized in downstream processing due to their high capacity and selectivity; however, their multimodal interactions lead to an intricacy in the adsorption-desorption patterns and systematic characterization of conditions for process steps is necessary.
Capto adhere, a strong ion exchanger with multimodal functionality, was used in this study for the final aim of recombinant hepatitis B surface antigen (rHBsAg) purification from () industrial feedstock. Optimization of various parameters was done using the design of experiments (DOE) approach to determine the best binding and non-binding conditions.
Maximum rHBsAg binding on Capto adhere occurred in 20 mM sodium acetate, pH 4.5, and a binding capacity of about 0.75 mg/ml was achieved, which was much higher than rHBsAg binding capacity of other resins reported so far. In elution optimization investigations, it was revealed that 1 M arginine (buffered in 50 mM sodium phosphate, pH 6.5) was the most efficient eluting agent. The binding and elution optimal conditions were utilized for further purification of rHBsAg from industrial feedstock in bind-elute mode, and the recovery and purity of the obtained rHBsAg were about 60% and 100%, respectively. Following optimization in the flow-through purification mode, the target protein recovery was significantly increased (up to 97%) and the target protein purity of more than 95% was achievable. SEC-HPLC analysis showed that the obtained retention times for the purified rHBsAg were similar to those reported previously.
These results suggest that Capto adhere under such optimized conditions can be considered as a good candidate for efficient purification of rHBsAg from industrial feedstock in downstream processing.
诸如Capto adhere之类的多模式色谱树脂,因其高容量和选择性而被认为是下游加工中很好的选择;然而,它们的多模式相互作用导致吸附-解吸模式复杂,因此有必要对工艺步骤的条件进行系统表征。
本研究使用具有多模式功能的强离子交换剂Capto adhere,最终目的是从()工业原料中纯化重组乙型肝炎表面抗原(rHBsAg)。采用实验设计(DOE)方法对各种参数进行优化,以确定最佳的结合和非结合条件。
在20 mM醋酸钠、pH 4.5条件下,Capto adhere对rHBsAg的结合量最大,结合容量约为0.75 mg/ml,远高于迄今报道的其他树脂对rHBsAg的结合容量。在洗脱优化研究中发现,1 M精氨酸(用50 mM磷酸钠缓冲,pH 6.5)是最有效的洗脱剂。利用结合和洗脱的最佳条件,以结合-洗脱模式进一步从工业原料中纯化rHBsAg,所得rHBsAg的回收率和纯度分别约为60%和100%。在优化了流通纯化模式后,目标蛋白回收率显著提高(高达97%),目标蛋白纯度可达95%以上。SEC-HPLC分析表明,纯化后的rHBsAg的保留时间与先前报道的相似。
这些结果表明,在这种优化条件下,Capto adhere可被视为下游加工中从工业原料中高效纯化rHBsAg的良好选择。
