Hospices Civils de Lyon, Edouard Herriot Hospital, Pharmacy Department, FRIPHARM®, F-69437 Lyon, France; Claude Bernard Lyon 1 University, French National Centre for Scientific Research (CNRS), Institut de Biologie et de Chimie des Protéines (IBCP), Tissue Biology and Therapeutic Engineering Laboratory (LBTI), UMR 5305, F-69007 Lyon, France.
Hospices Civils de Lyon, Edouard Herriot Hospital, Pharmacy Department, FRIPHARM®, F-69437 Lyon, France.
Eur J Pharm Biopharm. 2024 Oct;203:114438. doi: 10.1016/j.ejpb.2024.114438. Epub 2024 Aug 5.
The resurgence of phage therapy, once abandoned in the early 20th century in part due to issues related to the purification process and stability, is spurred by the global threat of antibiotic resistance. Engineering advances have enabled more precise separation unit operations, improving overall purification efficiency. The present review discusses the physicochemical properties of impurities commonly found in a phage lysate, e.g., contaminants, phage-related impurities, and propagation-related impurities. Differences in phages and bacterial impurities properties are leveraged to elaborate a four-step phage purification process: clarification, capture and concentration, subsequent purification and polishing. Ultimately, a framework for rationalising the development of a purification process is proposed, considering three operational characteristics, i.e., scalability, transferability to various phages and duration. This guide facilitates the preselection of a sequence of unit operations, which can then be confronted with the expected impurities to validate the theoretical capacity of the process to purify the phage lysate.
噬菌体疗法的复兴,曾在 20 世纪初因与纯化工艺和稳定性相关的问题而被摒弃,如今又因抗生素耐药性的全球性威胁而重新受到关注。工程学的进步使得更精确的分离单元操作成为可能,从而提高了整体的纯化效率。本综述讨论了噬菌体裂解物中常见的杂质的物理化学性质,例如污染物、噬菌体相关杂质和繁殖相关杂质。利用噬菌体和细菌杂质性质的差异,阐述了一个四步噬菌体纯化过程:澄清、捕获和浓缩、后续纯化和抛光。最终,提出了一个合理化纯化工艺开发的框架,考虑了三个操作特性,即可扩展性、可转移到各种噬菌体和持续时间。该指南有助于预选一系列单元操作,然后用预期的杂质来验证该工艺纯化噬菌体裂解物的理论能力。
