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  • Title: New okadaic acid analogues from the marine sponge Merriamum oxeato and their effect on mitosis.
    Author: Britton R, Roberge M, Brown C, van Soest R, Andersen RJ.
    Journal: J Nat Prod; 2003 Jun; 66(6):838-43. PubMed ID: 12828471.
    Abstract:
    Inhibitors of the G2 DNA damage checkpoint can selectively sensitize cancer cells with impaired p53 tumor suppressor activity to killing by DNA-damaging drugs or ionizing radiation and have been proposed as a promising therapeutic strategy. An extract from the Northeastern Pacific marine sponge Merriamum oxeato showed G2 checkpoint inhibitory activity, and fractionation identified the known dinoflagellate toxin dinophysistoxin 1 (1) and the two novel analogues 27-O-acetylokadaic acid (2) and 27-O-acetyldinophysistoxin 1 (3) as the active compounds. The mixture of 1, 2, and 3 was extremely potent at inhibiting the G2 checkpoint (IC(50) = 1 ng/mL) and cellular protein Ser/Thr phosphatases (IC(50) = 1 ng/mL), and it radiosensitized MCF-7 breast cancer cells expressing mutated p53 at all concentrations tested. However, the mixture of 1, 2, and 3 was also very toxic to cells not exposed to DNA damage (IC(50) = 1 ng/mL), making these compounds poor candidates for therapeutic agents to augment the effectiveness of DNA-damaging therapies.
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