School of Biology and Biological Engineering, South China University of Technology, Guangzhou, China.
Methods Mol Biol. 2022;2406:131-143. doi: 10.1007/978-1-0716-1859-2_7.
Efficient protein and peptide expression and purification technologies are highly needed in biotechnology, especially in light of the increasing number of proteins and peptides that are being exploited for therapeutic use, which are inherently difficult to produce via biological means. In this chapter, we describe a facile, reliable, and cost-effective peptide production and purification strategy based on short self-assembling peptides (e.g., LKD (LLLLLLKD)) and a C-terminal cleavage intein (e.g., Mtu ΔI-CM). This cleavable self-aggregating tag (cSAT) scheme depends on the in vivo formation of aggregates of the fusion protein containing the target peptide, which is induced during the expression by the presence of the self-assembling peptide in the construct. After a simple separation of the aggregates by centrifugation, the purified target peptide with authentic N-terminus is released in solution by pH-induced intein self-cleavage. As an example, a yield of about 4.4 μg/mg wet cell pellet was obtained when the cSAT scheme was used for the expression and purification of the therapeutic peptide GLP-1. This strategy provides a viable approach for preparing peptides with authentic N-termini, especially those in the range of 30 ~ 100 amino acids in size that are typically unstable or susceptible to degradation in Escherichia coli.
在生物技术中,高效的蛋白质和肽表达和纯化技术是非常需要的,特别是在越来越多的蛋白质和肽被用于治疗用途的情况下,这些蛋白质和肽通过生物手段生产本来就很困难。在本章中,我们描述了一种基于短自组装肽(例如,LKD(LLLLLLKD))和 C 末端切割内含肽(例如,MtuΔI-CM)的简便、可靠且具有成本效益的肽生产和纯化策略。这种可切割的自聚集标签(cSAT)方案依赖于融合蛋白中包含目标肽的聚集体的体内形成,这种聚集体是在构建体中存在自组装肽的情况下在表达过程中诱导产生的。通过离心简单地分离聚集体后,通过 pH 诱导内含肽自我切割,在溶液中释放具有真实 N 末端的纯化目标肽。例如,当使用 cSAT 方案表达和纯化治疗肽 GLP-1 时,约获得了 4.4μg/mg 湿细胞沉淀的产率。该策略为制备具有真实 N 末端的肽提供了可行的方法,特别是那些大小在 30~100 个氨基酸范围内的肽,这些肽在大肠杆菌中通常不稳定或容易降解。
