期刊
BIOTECHNOLOGY AND BIOENGINEERING
卷 118, 期 6, 页码 2243-2254出版社
WILEY
DOI: 10.1002/bit.27732
关键词
antitumor activity; genome mining; novel rubromycin congener; solubility; titer improvement; β ‐ rubromycin
资金
- Chinese Ministry of Education 111 Project [BP0820034]
- Fundamental Research Funds for the Central Universities of Central South University (CSU) [2019zzts331]
- National Natural Science Foundation of China [81530092, 81872779]
By utilizing a genome mining strategy, a high-producing strain of beta-RUB was identified, leading to the discovery of a new congener beta-RUB acid with improved solubility and higher anticancer activity. This work provides a foundation for the pilot-scale production of beta-RUB and its congeners, as well as offers a practical strategy for exploring other microbial natural products.
beta-rubromycin (beta-RUB) (1) is an efficient inhibitor of human telomerase possessing a unique spiroketal moiety as a potential pharmacophore and regarded as a promising anticancer drug lead. But the development of (beta-RUB) (1) has long been hampered by its low titer and very poor water solubility. By adopting a genome mining strategy, an FAD-dependent monooxygenase RubN involving with the formation of the spiro system was applied as the probe and Streptomyces sp. CB00271 was screened out from our strain collection as an alternative natural high producer of beta-RUB (1). After a series of fermentation optimizations, CB00271 could produce 124.8 +/- 3.4 mg/L beta-RUB (1), which was the highest titer up to now. Moreover, the enhanced production of beta-RUB (1) in fermentation broth also led to the discovery of a new congener beta-RUB acid (7), which was structurally elucidated as the acid form of beta-RUB (1). Comparing to beta-RUB (1), the substituted carboxyl group endowed beta-RUB acid (7) much better solubility in serum and resulted in its higher activity towards tumor cells. Our work set up a solid base for the pilot-scale production of beta-RUB (1) and its congeners to facilitate their future development as promising anticancer drug leads, and also provide an alternative and practical strategy for the exploitation of other important microbial natural products.
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