Fundamental Toxicological Sciences
Online ISSN : 2189-115X
ISSN-L : 2189-115X
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  • Yusuke Hanaki, Yusuke Araki, Toshio Nishikawa, Ryo C. Yanagita
    2021 Volume 8 Issue 3 Pages 69-73
    Published: 2021
    Released: June 15, 2021

    Oscillatoxins E (1) and F (2) are cyanotoxins isolated from cyanobacteria in the genus Lyngbya. We recently reported the first total synthesis of these compounds and determined their cytotoxicity in various cancer cell lines. Their anti-proliferative activities were moderate, but 2 exhibited unique cell line selectivity. In order to understand their mode of action, in this study we evaluated the cytotoxicity of 1 and 2 under nutrient-depletion culture conditions. Interestingly, 2 exhibited stronger cytotoxicity in HHUA endometrial cancer cells, especially under FBS-starvation conditions. However, its toxicity was not increased in HHUA cells precultured in FBS-depleted medium. These results suggest that 2 is not selectively toxic to nutrient-starved cells and that FBS components such as albumin more strongly neutralized the cytotoxicity of 2 relative to 1. The protein composition of FBS varies by production lot, and the amount of FBS supplemented to culture medium is flexibly determined depending upon the cell line used and experimental objectives. Therefore, it is important to consider the detoxification activity of FBS to precisely evaluate the properties of oscillatoxins, including cytotoxic potency, cell line selectivity, and their respective structure–activity relationships.

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Original Article
  • Shuso Takeda, Masayo Hirao-Suzuki, Yukimasa Yamagishi, Takahiro Sugiha ...
    2021 Volume 8 Issue 3 Pages 75-80
    Published: 2021
    Released: June 23, 2021

    Here, we established an ethanol extraction method and obtained extracts of Neopyropia yezoensis cultivated in three different locations (extracts A-C) in the Seto Inland Sea (Setonaikai). The effects of the extracts on 10 human cancer cells derived from seven different organs were investigated. Extract A exerted the strongest anti-proliferative effects on all types of cancer cells, including an endocrine therapy-resistant aggressive breast cancer model, LTED cells. We analyzed the effects of the extracts on MCF-7 (parental cells for producing LTED cells)/LTED cells, along with four established anti-proliferative agents (etoposide, LY2835219, paclitaxel, and trichostatin A) with different action mechanisms. The inhibitory effects of extract A on both breast cancer cells were comparable with those of paclitaxel, although the other agents showed a preferable reduction in MCF-7 cell viability. We provide evidence of the involvement of component(s), especially those of extract A of N. yezoensis, which exerted anti-proliferative effects on cancer cells.

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