Discovery of a novel analogue of FR901533 and the corresponding biosynthetic gene cluster from Streptosporangium roseum No. 79089

FR901533 (1, also known as WS79089B), WS79089A (2), and WS79089C (3) are polycyclic aromatic natural products with promising inhibitory activity to endothelin-converting enzymes. In this work, we isolated five tridecaketide products from Streptosporangium roseum No. 79089, including 1-3, benaphthamycin (4) and a novel FR901533 analogue (5). The structure of 5 was characterized based on spectroscopic data. Compared with the major product 2, the new compound 5 has an additional hydroxyl group at C-12 and an extra methyl group at the 13-OH. The configuration of C-19 of these compounds was determined to be R using Mosher's method. A putative biosynthetic gene cluster for compounds 1-5 was discovered by analyzing the genome of S. roseum No. 79089. This 38.6-kb gene cluster contains 38 open reading frames, including a minimal polyketide synthase (wsaA-C), an aromatase (wsaD), three cyclases (wsaE, F, and W), and a series of tailoring enzymes such as monooxygenases (wsaO1-O7) and methyltransferases (wsaM1 and M2). Disruption of the ketosynthase gene (wsaA) in this gene cluster abolished the production of 1-5, confirming that this gene cluster is indeed responsible for the biosynthesis of 1-5. A type II polyketide biosynthetic pathway was proposed for this group of natural endothelin-converting enzyme inhibitors. KEY POINTS: • Five aromatic tridecaketides were isolated from Streptosporangium roseum No. 79089. • A novel FR901533 analogue, 12-hydroxy-13-O-methyl-WS79089A, was characterized. • The absolute configuration of C-19 of FR901533 and analogues was determined. • The biosynthetic gene cluster of FR901533 and analogues was discovered.