Wychimicins, a new class of spirotetronate polyketides from Actinocrispum wychmicini MI503-A4.

In the course of our screening program for new anti-methicillin-resistant Staphylococcus aureus antibiotics, four novel antibiotics, termed wychimicins A-D, were isolated from the culture broth of the rare actinomycete Actinocrispum wychmicini strain MI503-AF4. Wychimicins are spirotetronates possessing a macrocyclic 13-membered ring containing trans-decalin and ß-D-xylo-hexopyranose moieties connected to C-17 by an O-glycosidic linkage according to MS, NMR and X-ray analyses. In X-ray crystal structure analysis, the Flack constant was 0.10 (11). The stereochemistry of the spirocarbon C-25 was R. Wychimicins had a minimum inhibitory concentration of 0.125-2 µg ml^-1 against methicillin-resistant Staphylococcus aureus.

Anti-influenza Virus Activity of Methylthio-Formycin Distinct From That of T-705.

Seasonal influenza virus epidemics result in severe illness, and occasionally influenza pandemics cause significant morbidity and mortality, although vaccines and anti-influenza virus drugs are available. By screening an in-house library, we identified methylthio-formycin (SMeFM), an adenosine analog, as a potent inhibitor of influenza virus propagation. SMeFM inhibited the propagation of influenza A and B viruses (IC50: 34.1 and 37.9 nM, respectively) and viruses showing reduced susceptibility to baloxavir and neuraminidase inhibitors but not T-705 (Favipiravir). However, the combination of T-705 and SMeFM inhibited the propagation of the influenza virus not in an antagonistic but in a slightly synergistic manner, suggesting that SMeFM has targets distinct from that of T-705. SMeFM induced A-to-C transversion mutations in virus genome RNA, and SMeFM triphosphate did not inhibit in vitro viral RNA synthesis. Our results show that SMeFM inhibits the propagation of the influenza virus by a mechanism different from that of T-705 and is a potential drug candidate to develop for anti-influenza drug.