posted on 2023-04-12, 13:35authored byJin Won Choi, Yeonhee Lee, Jaekyeong Kim, Haeun Kwon, Stephen T. Deyrup, Jin Woo Lee, Dongho Lee, Hahk-soo Kang, Hwangsoo Joo, Sang Hee Shim
In an effort to activate silent biosynthetic gene clusters, Streptomyces samsunensis DSM42010, a producer of geldanamycin,
was cultured at four different
pHs (4.5, 5.4, 6.6, and 7.4). An acidic culture condition (pH 5.4)
was selected for a chemical investigation since S. samsunensis showed a different metabolic profile compared to when it was cultured
under other conditions. Seven new (1–7) and four known (8–11) compounds
were isolated from these cultures. The structures of the isolated
compounds were determined by spectroscopic techniques and chemical
derivatization. Relative and absolute configurations of the new compounds
(1–5) were established using JBCA, PGME method, advanced Marfey’s method, modified
Mosher’s method, and comparison of observed and calculated
ECD data. Interestingly, compounds 1–3 were truncated versions of geldanamycin, and compound 4 was also deduced to originate from geldanamycin. Compound 5 was composed of 3-methyltyrosine and 6-hydroxy-2,4-hexadienoic
acid connected through an amide bond. Compounds 6 and 7 were dihydrogenated forms of geldanamycin with a hydroxy
substitution. It is possible that culturing this strain under acidic
conditions interfered to some degree with the geldanamycin polyketide
synthase, leading to production of truncated versions as well as analogues
of geldanamycin. Compounds 1, 8, and 9 showed significant antivirulence activity, inhibiting production
of α-toxin by methicillin-resistant Staphylococcus aureus without growth attenuation and global regulatory inhibition; compounds 1, 8, and 9 may become promising
α-toxin-specific antivirulence leads with less risk of resistance
development.