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  • Title: Growth-inhibitory effects of vitamin E succinate on retrovirus-transformed tumor cells in vitro.
    Author: Kline K, Cochran GS, Sanders BG.
    Journal: Nutr Cancer; 1990; 14(1):27-41. PubMed ID: 2367234.
    Abstract:
    Vitamin E succinate inhibited proliferation of C4#1 cells, an established avian retrovirus [reticuloendotheliosis virus (REV)]-transformed immature lymphoid tumor cell line, in a dose-dependent manner. The cytostatic effects of vitamin E succinate were reversible in that treated cells regained their ability to divide after vitamin E succinate removal. Possible mechanism(s) for the antiproliferative actions of vitamin E succinate were investigated. Analyses of C4#1 cell surface membrane antigen profiles and morphology indicated that vitamin E succinate was not inducing differentiation of the tumor cells to a more mature, differentiated, nonproliferative state. Five antioxidants, including a synthetic analogue of vitamin E, Trolox, as well as the active vitamin form, DL-alpha-tocopherol, were incapable of inhibiting C4#1 tumor cell growth, indicating that a mechanism of action other than or in addition to functions as an antioxidant may be operating. Cell cycle analyses suggested that C4#1 tumor cells treated with vitamin E succinate were blocked in the G0G1/early S phases of the cell cycle. Tumor growth arrested by vitamin E succinate did not affect the expression of the REV-encoded oncogene, v-rel, at either the RNA or protein level. These studies demonstrated that vitamin E, in the form of vitamin E succinate, inhibited the growth of retrovirus-transformed tumor cells in vitro and suggested that the antiproliferative effects of vitamin E succinate did not involve antioxidant properties but rather, as yet, unidentified mechanisms leading to cell cycle blockage.
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