Faculty of Pharmacy, Universiti Teknologi MARA (UiTM) Puncak Alam Campus, Selangor 42300, Malaysia.
Maternofetal and Embryo Research Group (MatE), Universiti Teknologi MARA (UiTM), Selangor 40450, Malaysia.
Biomolecules. 2019 Jan 10;9(1):19. doi: 10.3390/biom9010019.
Protective action by annatto-derived delta-tocotrienol (δ-TCT) and soy-derived alpha-tocopherol (α-TOC) through the regulation of the PI3K/Akt-cyclin D1 pathway against nicotine-induced DNA damage is the focus of the present study. Nicotine, which has been widely reported to have numerous adverse effects on the reproductive system, was used as a reproductive toxicant. 48 female balb/c mice (6⁻8 weeks) (23⁻25 g) were randomly divided into eight groups (Grp.1⁻Grp.8; = 6) and treated with either nicotine or/and annatto δ-TCT/soy α-TOC for seven consecutive days. On Day 8, the females were superovulated and mated before euthanization for embryo collection (46 h post-coitum). Fifty 2-cell embryos from each group were used in gene expression analysis using Affymetrix QuantiGene Plex2.0 assay. Findings indicated that nicotine (Grp.2) significantly decreased ( < 0.05) the number of produced 2-cell embryos compared to the control (Grp.1). Intervention with mixed annatto δ-TCT (Grp.3) and pure annatto δ-TCT (Grp.4) significantly increased the number of produced 2-cell embryos by 127% and 79%, respectively compared to Grp.2, but these were lower than Grp.1. Concurrent treatment with soy α-TOC (Grp.5) decreased embryo production by 7%. Supplementations with δ-TCT and α-TOC alone (Grp.6-Grp.8) significantly increased ( < 0.05) the number of produced 2-cell embryos by 50%, 36%, and 41%, respectively, compared to control (Grp.1). These results were found to be associated with alterations in the PI3K/Akt-Cyclin D1 genes expressions, indicating the inhibitory effects of annatto δ-TCT and soy α-TOC against nicotinic embryonic damage. To our knowledge, this is the first attempt in studying the benefits of annatto δ-TCT on murine preimplantation 2-cell embryos.
姜黄素衍生的 δ-生育三烯酚(δ-TCT)和大豆衍生的 α-生育酚(α-TOC)通过调节 PI3K/Akt-细胞周期蛋白 D1 通路对尼古丁诱导的 DNA 损伤的保护作用是本研究的重点。尼古丁已被广泛报道对生殖系统有许多不良影响,被用作生殖毒物。48 只雌性 balb/c 小鼠(6-8 周龄)(23-25g)被随机分为 8 组(Grp.1-Grp.8;n=6),连续 7 天用尼古丁和/或姜黄素 δ-TCT/大豆 α-TOC 处理。第 8 天,雌性小鼠超数排卵并交配,然后处死收集胚胎(受精后 46 小时)。每组 50 个 2 细胞胚胎用于 Affymetrix QuantiGene Plex2.0 分析基因表达。结果表明,与对照组(Grp.1)相比,尼古丁(Grp.2)显著降低(<0.05)2 细胞胚胎的产仔数。混合姜黄素 δ-TCT(Grp.3)和纯姜黄素 δ-TCT(Grp.4)的干预分别使 2 细胞胚胎的产仔数增加了 127%和 79%,但低于 Grp.1。同时用大豆 α-TOC(Grp.5)处理可使胚胎产量减少 7%。单独补充 δ-TCT 和 α-TOC(Grp.6-Grp.8)分别使 2 细胞胚胎的产仔数增加了 50%、36%和 41%,与对照组(Grp.1)相比有显著差异(<0.05)。这些结果与 PI3K/Akt-细胞周期蛋白 D1 基因表达的改变有关,表明姜黄素衍生的 δ-TCT 和大豆衍生的 α-TOC 对尼古丁诱导的胚胎损伤具有抑制作用。据我们所知,这是首次研究姜黄素衍生的 δ-TCT 对小鼠着床前 2 细胞胚胎的益处。
