Hang Sub Kim

Anti-angiogenic activities of gliotoxin and its methylthio-derivative, fungal metabolites

In the search for new naturally occurring angiogenic inhibitor, we found that culture broths from two unidentified fungal strains exerted potent inhibitory activities on capillary-like tube formation of human umbilical vein endothelial cells (HUVEC)in vitro. Two active compounds were isolated by bioassay-guided separation and their structures were identified as gliotoxin (1) and its derivative methylthiogliotoxin (2) by spectroscopic analyses. These compounds significantly inhibited the migration of HUVEC assessed byin vitro wounding migration assay and exhibited at least 10 times more potent inhibition of proliferation of HUVECs as compared with that of cancer cell lines such as HeLa, MCF-7, and KB 3-1 cells. Especially, gliotoxin having disulfide group exerted more potent activities than methylthiogliotoxin, suggesting that gliotoxin could be a useful compound for further study as an anti-angiogenic agent.

Expression of Streptomyces peucetius genes for doxorubicin resistance and aklavinone 11-hydroxylase in Streptomyces galilaeus ATCC 31133 and production of a hybrid aclacinomycin.

The aklavinone 11-hydroxylase gene and two doxorubicin resistance genes cloned from Streptomyces peucetius subsp. caesius ATCC 27952 were introduced into doxorubicin-sensitive Streptomyces galilaeus ATCC 31133, an aclacinomycin producer. The doxorubicin resistance genes drrA and drrB endowed S. galilaeus with high-level resistance to doxorubicin, indicating that the resistance mechanism for doxorubicin might be different from that for aclacinomycin A. Transformation of S. galilaeus ATCC 31133 with plasmid pMC213 containing the aklavinone 11-hydroxylase gene (dnrF) resulted in the production of many red pigments. A new metabolite was purified, and the position of the newly introduced hydroxyl group was determined. This result indicated that the aklavinone 11-hydroxylase gene was stably expressed in S. galilaeus ATCC 31133 and that it gave rise to a hybrid aclacinomycin A which showed highly specific in vitro cytotoxicity against leukemia and melanoma cell lines.

Iridoid compounds fromBoschniakia rossica

Four iridoid compounds were isolated from methanol extract ofBoschniakia rossica by repeated column chromatography. Their structures were determined as boschnaloside (1), boschnarol (2), bosnarol methylether (3), and 7-deoxy 8-epiloganic acid (4), respectively. Compound2, 3, and4 were isolated for the first time from this plant.

Targeted gene disruption of the avermectin B O-methyltransferase gene in Streptomyces avermitilis

The biological activity of avermectin B components is superior to that of avermectin A components, which are derived from avermectin B by avermectin B 5-O-methyltransferase. Gene disruption, targeting avermectin B 5-O-methyltransferase gene in Streptomyces avermitilis, was carried out to obtain a strain of avermectin B producer. Phenotype analysis of the mutant with the disrupted O-methyltransferase gene showed that only avermectin B components were produced with a significant increase in production

Biotransformation of milbemycin D to milemycin G by Streptomyces lividans conferring avermectin O-methyltransferase activity

Avermectin O-methyltransferase gene was cloned from a cosmid clone covering the first module of polyketide synthase gene cluster of avermectin biosynthesis. Streptomyces lividans transformed with a DNA fragment containing avermectin O-methyltransferase gene efficiently convert milbemycin D to milbemycin G, indicating that biosynthetic genes of milbemycin and avermectin might complement each other.