Antineoplastic agents XLV: sea cucumber cytotoxic saponins

Stichoposide C induces apoptosis through the generation of ceramide in leukemia and colorectal cancer cells and shows in vivo antitumor activity

PURPOSE

Marine triterpene glycosides that are physiologically active natural compounds isolated from sea cucumbers (holothurians) and sponges have antifungal, cytotoxic, and antitumor activities, whose specific molecular mechanisms remain to be elucidated. In this study, we examined if and through which mechanisms stichoposide C (STC) from Thelenota anax (family Stichopodidae) induces apoptosis in leukemia and colorectal cancer cells.

EXPERIMENTAL DESIGN

We examined STC-induced apoptosis in human leukemia and colorectal cancer cells in the context of mitochondrial injury and signaling pathway disturbances, and investigated the antitumor effect of STC in mouse CT-26 subcutaneous tumor and HL-60 leukemia xenograft models.

RESULTS

We found that STC induces apoptosis in these cells in a dose-dependent manner and leads to the activation of Fas and caspase-8, cleavage of Bid, mitochondrial damage, and activation of caspase-3. STC activates acid sphingomyelinase (SMase) and neutral SMase, which resulted in the generation of ceramide. Specific inhibition of acid SMase or neutral SMase and siRNA knockdown experiments partially blocked STC-induced apoptosis. Moreover, STC markedly reduced tumor growth of HL-60 xenograft and CT-26 subcutaneous tumors and increased ceramide generation in vivo.

CONCLUSIONS

Ceramide generation by STC, through activation of acid and neutral SMase, may in part contribute to STC-induced apoptosis and antitumor activity. Thus, STC may have therapeutic relevance for human leukemia and colorectal cancer.

Constituents of the sea cucumber Cucumaria okhotensis. Structures of okhotosides B1-B3 and cytotoxic activities of some glycosides from this species

Three new triterpene oligoglycosides, okhotosides B 1 ( 1), B 2 ( 2), and B 3 ( 3), have been isolated from the sea cucumber Cucumaria okhotensis along with the known compounds frondoside A ( 4), frondoside A 1, cucumarioside A 2-5, and koreoside A. The structures of 1- 3 were elucidated on the basis of their spectroscopic data (2D NMR and MS). Compounds 1- 3 were moderately toxic against HeLa tumor cells. Frondoside A ( 4) showed more potent cytotoxicity against THP-1 and HeLa tumor cell lines (with IC 50 values of 4.5 and 2.1 microg/mL, respectively) and decreased both the AP-1-dependent trascriptional activities induced by UVB, EGF, or TPA in JB6-LucAP-1 cells and the EGF-induced NF-kappaB-dependent transcriptional activity in JB6-LucNF-kB cells at doses of about 1 microg/mL. At the same doses, it increased the p53-dependent transcriptional activity in nonactivated JB6-Lucp53 cells and inhibited the colony formation of JB6 P (+) Cl 41 cells activated with EGF (INCC 50 = 0.8 microg/mL).

A comparative study in vitro of physiological activity of triterpene glycosides of marine invertebrates of echinoderm type

1. The cytostatic and antimicrobial activity of triterpene glycosides of 19 holothurian species of the Pacific tropical zone has been studied. 2. It has been demonstrated that yeast and tumor cells display a comparable sensibility to the action of triterpene oligosides of sea cucumbers. 3. Gram-positive and Gram-negative bacteria are not sensible to the action of glycosides in doses to 500 mkg/ml. 4. Triterpene glycosides-stichoposides, thelothurins and oligosides of Holothuria of genus Bohadschia are the most active in relation to fungal, yeast microflora and tumor cells.