Institute of Marine Science and Technology, Shandong University, Qingdao, Shandong, China.
State Key Laboratory of Microbial Technology, Institute of Microbial Technology, Helmholtz International Lab for Anti-infectives, Shandong University-Helmholtz Institute of Biotechnology, Shandong University, Qingdao, Shandong, China.
Biotechnol Bioeng. 2021 Dec;118(12):4668-4677. doi: 10.1002/bit.27928. Epub 2021 Sep 1.
Salinomycin is a promising anticancer drug for chemotherapy. A highly productive biosynthetic gene cluster will facilitate the creation of analogs with improved therapeutic activity and reduced side effects. In this study, we engineered an artificial 106-kb salinomycin gene cluster and achieved efficient heterologous expression in three hosts: Streptomyces coelicolor CH999, S. lividans K4-114, and S. albus J1074. The six-operon artificial gene cluster consists of 25 genes from the native gene cluster organized into five operons and five fatty acid β-oxidation genes into one operon. All operons are driven by strong constitutive promoters. For K4-114 and J1074 harboring the artificial gene cluster, salinomycin production in shake flask cultures was 14.3 mg L and 19.3 mg L , respectively. The production was 1.3-fold and 1.7-fold higher, respectively, than that of the native producer S. albus DSM41398. K4-114 and J1074 harboring the native gene cluster produced an undetectable amount of salinomycin and 0.5 mg L , respectively. CH999 harboring the artificial gene cluster produced 10.3 mg L of salinomycin, which was 92% of the production by DSM41398. The efficient heterologous expression system based on the 106-kb multioperon artificial gene cluster established in this study will facilitate structural diversification of salinomycin, which is valuable for drug development and structure-activity studies.
沙利霉素是一种很有前途的化疗抗癌药物。一个高效的生物合成基因簇将有助于创造具有更好治疗活性和更低副作用的类似物。在这项研究中,我们设计了一个人工的 106kb 沙利霉素基因簇,并在三个宿主中实现了高效的异源表达:变铅青链霉菌 CH999、变红红链霉菌 K4-114 和白色链霉菌 J1074。这个由六个操纵子组成的人工基因簇由来自天然基因簇的 25 个基因组成,组织成五个操纵子和五个脂肪酸β-氧化基因组成一个操纵子。所有操纵子都由强组成型启动子驱动。对于含有人工基因簇的 K4-114 和 J1074,摇瓶培养中的沙利霉素产量分别为 14.3mg/L 和 19.3mg/L。与天然产沙利霉素的白色链霉菌 DSM41398 相比,产量分别提高了 1.3 倍和 1.7 倍。含有天然基因簇的 K4-114 和 J1074 分别产生无法检测到的沙利霉素和 0.5mg/L。含有人工基因簇的 CH999 产生了 10.3mg/L 的沙利霉素,占 DSM41398 产量的 92%。本研究建立的基于 106kb 多操纵子人工基因簇的高效异源表达系统将有助于沙利霉素的结构多样化,这对于药物开发和结构-活性研究具有重要价值。
