The indolocarbazole family of natural products has attracted great attention because of their unique structural features and potential therapeutic applications. Structurally distinct in the family, K-252a is characterized by an unusual dihydrostreptose moiety cross-bridged to K-252c aglycone with two C-N linkages. K-252a has served as a valuble lead for treatments of various cancers and neurodegenerative disorders. Recent cloning of the nok gene cluster for biosyntheses of K-252a and its analogs from Nocardiopsis sp. K-252 (NRRL15532) has revealed the nokABCD genes indispensible for K-252c biosynthesis and the key gene (nokL) coding for N-glycosylation. Herein, we report the first, successful demonstration of in vitro sugar transferase activity of indolocarbazole N-glycosyltransferase (NokL) by use of soluble protein expressed from Escherichia coli. Notably, NokL was found to exhibit peculiar mode of substrate promiscuity. Moreover, NokA and NokB reactions were biochemically characterized thoroughly by natual and alternative (e.g. fluoro-) substrates and by ammonium hydroxide (NH4OH). Interestingly, the in vitro expression of NokA revealed high substrate stereoselectivity, giving several indole-3-pyruvic acid-derived compounds, including indol-3-carboxaldehyde (ICA) and indole-3-acetic acid. The use of NH4OH successfully dissected the in vitro NokA/NokB coupled reaction, revealing mechanistic insight into the enzymes and their cross-talking relationship. Also, a simple, useful method to synthesize K-252d, ICA and chromopyrrolic acid (the NokB product) was developed by the E. coli expression systems of NokL, NokA and NokA/NokB, respectively. Together with NokA and NokB, NokL may serve as a useful tool for combinatorial engineering of K-252a and its analogs for improved therapeutic values.
All Science Journal Classification (ASJC) codes
- Molecular Biology