Faculty of Bioresource Sciences, Akita Prefectural University, Akita, Japan.
Faculty of Systems Science and Technology, Akita Prefectural University, Akita, Japan.
J Appl Toxicol. 2020 Jun;40(6):804-814. doi: 10.1002/jat.3945. Epub 2020 Feb 4.
Bisphenol A (BPA), a very important raw material in the plastics industry, is an endocrine-disrupting chemical in teleost fish. Although BPA induces testis-ova and sex reversal in teleost fish species, the molecular mechanism remains unclear. We evaluated the effects of BPA (measured concentrations: 45, 92, 326, 1030 and 3406 μg/L) on Japanese medaka (Oryzias latipes) using OECD TG234 (2011, Fish Sexual Development Test, OECD Guidelines for the Testing of Chemicals, Section 2). BPA at 1030 and 3406 μg/L induced testis-ova and sex reversal with female-type secondary sexual characteristics in XY males at 30 and 60 days posthatching (dph). Then we examined the BPA effect on the expression of sex differentiation genes related to the testis-ova and sex reversal in XY medaka. BPA exposure (1030 and 3406 μg/L) suppressed gsdf mRNA expression and increased cyp19a1a mRNA expression in XY individuals at stage 38 and 30 dph, although foxl2 mRNA expression showed no change. Interestingly, the concentration of BPA that suppressed gsdf mRNA expression at the larval stage was consistent with that needed to induce testis-ova and sex reversal. These results suggest that the gsdf gene at the embryonic stage can be used as a useful biomarker for predicting the impact of estrogenic endocrine-disrupting chemicals on sexual differentiation in Japanese medaka.
双酚 A(BPA)是塑料工业中非常重要的原料,是一种会干扰鱼类内分泌的化学物质。尽管 BPA 会导致硬骨鱼类的睾丸-卵巢和性反转,但其中的分子机制尚不清楚。我们采用经合组织 TG234 测试法(2011 年,鱼类性发育测试,经合组织化学品测试指南,第 2 节)评估了 BPA(实测浓度:45、92、326、1030 和 3406μg/L)对日本青鳉(Oryzias latipes)的影响。1030 和 3406μg/L 的 BPA 在孵化后 30 和 60 天诱导 XY 雄性出现睾丸-卵巢和性反转,并伴有雌性型第二性征。然后,我们检测了 BPA 对与 XY 青鳉睾丸-卵巢和性反转相关的性别分化基因表达的影响。暴露于 BPA(1030 和 3406μg/L)会抑制 XY 个体在 38 期和 30 期时 gsdf mRNA 的表达,并增加 cyp19a1a mRNA 的表达,尽管 foxl2 mRNA 的表达没有变化。有趣的是,在幼虫阶段抑制 gsdf mRNA 表达所需的 BPA 浓度与诱导睾丸-卵巢和性反转所需的浓度一致。这些结果表明,胚胎阶段的 gsdf 基因可作为预测雌激素类内分泌干扰物对日本青鳉性别分化影响的有用生物标志物。
