Keisuke Ohsumi

FR258900, a novel glycogen phosphorylase inhibitor isolated from Fungus No. 138354. I. Taxonomy, fermentation, isolation and biological activities.

FR258900 is a novel glycogen synthesis activator produced by Fungus No. 138354. This compound was isolated from the culture broth by solvent extraction and reverse-phase column chromatography. FR258900 stimulated glycogen synthesis and glycogen synthase activity in primary rat hepatocytes. FR258900 exhibited a potent inhibitory effect on the activity of liver glycogen phosphorylase, suggesting that this compound may activate hepatic glycogen synthesis via glycogen phosphorylase inhibition. Thus, this glycogen phosphorylase inhibitor may be useful in the treatment of postprandial hyperglycemia in type 2 diabetes.

ASP2397: a novel antifungal agent produced by Acremonium persicinum MF-347833

The novel antifungal agent ASP2397 (Vical’s compound ID VL-2397) is produced by the fungal strain MF-347833 that was isolated from Malaysian leaf litter and is identified here as an Acremonium species based on its morphology, physiological properties and 28S ribosomal DNA sequence. Because of its potential importance for producing novel antifungal agents, we determined the taxonomic and biologic properties of MF-347833. We show here that ASP2397 is a cyclic hexapeptide that chelates aluminum ion and is therefore similar to ferrichrome, a hydroxamate siderophore. However, ASP2397 differs structurally from licensed antifungal agents such as amphotericin B, triazoles and echinocandins. To understand the relationship between chemical structure and biological function, we isolated certain ASP2397 derivatives from the culture broth, and we further chemically converted the metal-free form to other derivatives.

AS2077715 is a selective inhibitor of fungal mitochondrial cytochrome bc 1 complex

AS2077715 is a novel antifungal metabolite produced by the newly isolated fungal strain Capnodium sp. 339855. This compound has an analogous structure to funiculosin, an inhibitor of mitochondrial cytochrome bc1 complex (complex III). AS2077715 inhibited ubiquinol-cytochrome c reductase activity of Trichophyton mentagrophytes complex III with an IC50 of 0.9 ng ml−1, while 6000–20 000 ng ml−1 AS2077715 was required to obtain comparable inhibition of mammalian complex III. This inhibitor also suppressed the growth of T. mentagrophytes with a MIC of 0.08 μg ml−1, while cytotoxicity for mammalian cells was >6 μg ml−1. These results indicate that AS2077715 is a selective inhibitor of fungal mitochondrial complex III. AS2077715 in doses of 1 μg ml−1 or greater showed fungicidal activity against T. mentagrophytes within 2 h of incubation. This early-onset effect of fungicidal activity was also exhibited by other complex III inhibitors. These results suggest that inhibition of complex III is a promising strategy for designing anti-Trichophyton agents and that AS2077715 can be a potential drug candidate for treating Trichophyton infections.

Bioconversion of AS1387392: bioconversion studies involving Amycolatopsis azurea JCM 3275

We screened actinomycetes capable of converting AS1387392 to AS1429716 and identified those strains capable of hydroxylation. Amycolatopsis azurea JCM 3275 was found to be a particularly efficient strain, capable of converting AS1387392 to AS1429716, with a yield of 44% after 9 h. This strain can metabolize not only the hydroxylation of phenylalanine at the meta and para positions but also the reduction of hydroxyketones, as shown by the isolation of bioconversion products. Examination of more suitable conversion conditions showed that pH 7.8 and 25 °C were the optimum pH and temperature for bioconversion, respectively. We also demonstrated the effect of carbon and nitrogen sources in the culture media on hydroxylation. Using this strain, we were able to efficiently produce AS1429716 as a chemical template. Further derivatization studies may provide more effective, safer immunosuppressants than those that are currently on-market.

Therapeutic efficacy of AS2077715 against experimental tinea pedis in guinea pigs in comparison with terbinafine.

AS2077715 is a novel antifungal metabolite produced by the newly isolated fungal strain Capnodium sp. 339855. This compound has potent inhibitory activity against Trichophyton mentagrophytes mitochondrial cytochrome bc1 complex (complex III) and potent fungicidal activity against T. mentagrophytes, as measured in vitro. Here, we compared the effects of AS2077715 and terbinafine in a guinea pig model of tinea pedis. In a treatment regimen started from the day 7 after infection, 10 daily oral doses of 10 and 20 mg kg−1 AS2077715 and 20 mg kg−1 of terbinafine significantly decreased fungal colony-forming units (CFUs) in foot pad skin. In a treatment regimen started from the day 11 after infection, 20 mg kg−1 AS2077715 significantly reduced fungal CFUs in foot pad skin after 7 daily doses in comparison with 20 mg kg−1 terbinafine-treated guinea pigs. Our findings suggest that in vivo potency and efficacy of AS2077715 are equal to or greater than that of terbinafine, positioning AS2077715 as a good candidate for use in treating trichophytosis.

AS2077715: a novel antifungal antibiotic produced by Capnodium sp. 339855

A novel antifungal agent, AS2077715, was isolated from the fermentation broth of a fungal strain (339855) identified as a new Capnodium species based on morphological characteristics and large-subunit ribosomal DNA sequencing. AS2077715 was isolated as a white powder via solvent extraction, HP-20 and ODS-B column chromatography and crystallization, and was determined to have the molecular formula C25H41NO7. AS2077715 has a structure related to that of funiculosin, an inhibitor of mitochondrial cytochrome bc1 complex (complex III), and showed antifungal activity against Trichophyton species.