Hyun-Mi Kang scite author profile

Arteminolides B-D (2-4), new farnesyl protein transferase inhibitors, were isolated together with a known arteminolide A (1) and new regioisomers (5-7) of the compounds from the aerial parts of Artemisia argyi. Structures of these compounds were elucidated by spectroscopic methods and chemical conversion. Arteminolides inhibited the farnesyl protein transferase with IC(50) values of 0.7-1 microM, while the regioisomers 5-7 were inactive. In addition, it was proved that the exocyclic double bond of sesquiterpene lactone did not affect the inhibitory activity of arteminolide. The effects of compound 2 on H-Ras processing and cellular growth in H-ras-transformed cells were also evaluated.

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Relationship Between Flavonoid Structure and Inhibition of Farnesyl Protein Transferase

Kang

Kim

Lee

et al. 2004

Natural Product Research

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Flavonoids are well-known phytochemicals that are produced by various plants in high quantities. The chemopreventive activity of flavonoids is dependent on their structural features. The studies of structure-FPTase inhibitory activity indicated that the number, position and substitution of hydroxyl groups of the A and B rings of flavonoid, and unsaturation of the C2-C3 bond are important factors affecting inhibition on FPTase by flavonoids. A couple of flavonoids inhibited FPTase and also the growth of human tumor cell lines, especially butein, which strongly inhibited the growth of colon cancer cell line (HCT116). However, flavanones and flavanols did not inhibit FPTase nor the growth of tumor cells.

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Hyun-Mi Kang

Anti-tumor activity of the farnesyl-protein transferase inhibitors arteminolides, isolated from Artemisa

Dehydrotrametenolic acid selectively inhibits the growth of H-ras transformed rat2 cells and induces apoptosis through caspase-3 pathway

Arteminolides B, C, and D, New Inhibitors of Farnesyl Protein Transferase from Artemisia argyi

Relationship Between Flavonoid Structure and Inhibition of Farnesyl Protein Transferase

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