Characterization of Chinese tongue sole (Cynoglossus semilaevis) 24-dehydrocholesterol reductase: Expression profile, epigenetic modification, and its knock-down effect

生物 芳香化酶 PI3K/AKT/mTOR通路 甾体生物合成 性二态性 探地雷达 内分泌学 内科学 发起人 性类固醇 基因表达 表观遗传学 DNA甲基化 基因 激素 类固醇 雌激素受体 细胞生物学 信号转导 遗传学 乳腺癌 癌症 医学
作者
Na Wang,Zhihong Gong,Jialin Wang,Wenteng Xu,Qian Yang,Songlin Chen
出处
期刊:General and Comparative Endocrinology [Elsevier BV]
卷期号:312: 113870-113870 被引量:8
标识
DOI:10.1016/j.ygcen.2021.113870
摘要

The sexual size dimorphism of the Chinese tongue sole (Cynoglossus semilaevis) has greatly obstructed its sustainable development; however, the underlying mechanism remains unclear. Based on C. semilaevis transcriptomic information, 24-dehydrocholesterol reductase (dhcr24) was identified in steroid biosynthesis, showing female-liver-biased expression. Dhcr24 has been reported to participate in various processes, such as cholesterol synthesis, oxidative stress response, neuroprotection, and cell survival. The present study assessed its role in the sexual size dimorphism in fish. First, detailed expression pattern analysis showed that dhcr24 mRNAs were extensively expressed in tissues and the highest levels were found in the liver and gonads of females. Analysis of the dhcr24 promoter region demonstrated different DNA methylation statuses in female, male, and pseudomale gonads with higher epigenetic modification in males. The confirmation of transcription activity of the dhcr24 promoter and putative transcription factors (e.g., ER, AR, SREBP, and POU1F1a) provides the foundation for studying its regulatory mechanism. Finally, dhcr24-siRNA mediated knock-down assay using C. semilaevis liver cells showed that steroid biosynthesis related genes (e.g., ebp, dhcr7, and sc5d), core component of PI3K/Akt pathway (e.g., pi3k), and igf1r exhibited different expression patterns. Further investigation on the interplay between steroid hormones, dhcr24, PI3K/Akt, and IGF-1 systems will be valuable to better understand the mechanism underlying the sexual size dimorphism in C. semilaevis.

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