New peptidendrocins and anticancer chartreusin from an endophytic bacterium of .

Background: Endophyte has now become a potential source for the discovery of novel natural products, as they participate in biochemical pathways of their hosts and produce analogous or novel bioactive compounds. As an epiphytic plant, is one of precious Chinese medicines with various activities. It is well known for containing diverse endophytes, but so far not much is known about their secondary metabolites.

Methods: the plant tissues were cut and cultured on agar plates to isolate and purify the endophytic bacteria from . Taxonomical identification of strains was performed by 16s rRNA. At the same time, the crude extracts of the strains were tested for antibacterial and cytotoxic activities to screen out one endophyte, sp. SH-1.2-R-15 for further study. After scale-up fermentation, isolation, purification and structure elucidation by using MS, 1D/2D-NMR spectroscopic method, secondary metabolites were identified and submitted for biological activity test.

Results: Fifty-eight endophytic strains representing 9 genera were obtained, with 50% of strains were . One of the most active strain, sp. 1.2-R-15, was selected for bioassay-guided isolation, which led to the discovery of two new peptide-type compounds 1 and 2, as well as a bioactive chartreusin, and four other known natural products. Their structures were determined by comprehensive spectroscopic techniques. Chartreusin showed potent cytotoxicity against Hep3B2.1-7 (IC =18.19 µM) and H1299 (IC =19.74 µM) cancer cell lines, and antibacterial activity against (IC =23.25 µM).

Conclusions: This study highlights the endophytic bacteria from medical plant . have potential bioactivity and natural product diversity, thus implicates them as a valuable source for new anticancer and antibiotics agents.