Bain Peter A, Kumar Anu, Ogino Yukiko, Iguchi Taisen
Commonwealth Scientific and Industrial Research Organisation, Land and Water Flagship, PMB2, Glen Osmond, 5064 South Australia, Australia.
Commonwealth Scientific and Industrial Research Organisation, Land and Water Flagship, PMB2, Glen Osmond, 5064 South Australia, Australia.
Aquat Toxicol. 2015 Jun;163:97-101. doi: 10.1016/j.aquatox.2015.03.021. Epub 2015 Mar 31.
Synthetic progestogens derived from 19-nortestosterone can elicit a number of adverse effects in fish including decreased fecundity, altered hormone levels, disruption of normal breeding cycles, expression in females of male-specific biomarkers, development of male secondary sexual characteristics in females, and changes in the expression of steroidogenic genes. A recent in vitro study showed that a number of representatives from this class of progestins were potent agonists of fathead minnow androgen receptor (AR) and only weak agonists of progesterone receptor (PR) from the same species. This confirms that synthetic progestogens derived from 19-nortestosterone function as AR agonists in otomorphs, which express a single AR subtype. However, numerous perciformes are known to express two AR subtypes. We have recently shown that ARα and ARβ from Murray-Darling rainbowfish (Melanotaenia fluviatilis) respond differently to certain androgens and anti-androgens. The goal of the present study was to determine concentration-response profiles for selected progestins in transactivation assays driven by rainbowfish ARα, ARβ and PR in order to ascertain the relative potency of progestins against these receptors. As a means of confirming the expected activity of the progestins and reference compounds used in the study against human-derived receptors, we also established concentration-response relationships using transactivation assays driven by human PR and AR. We found that all five 19-nortestosterone-derived progestins tested were highly potent agonists of rainbowfish ARα, but that only four of the five progestins were potent agonists of rainbowfish ARβ, with norgestimate exhibiting only weak activity against rainbowfish ARβ. The spironolactone-derived progestin, drospirenone, was not an agonist of rainbowfish ARα or ARβ but was a weak agonist of rainbowfish PR. None of the 19-nortestosterone-progestins activated rainbowfish PR. These findings confirm that the majority of 19-nortestosterone-derived progestins are likely to elicit strong androgenic activity in teleosts, but that PR-mediated effects would be minimal. In species that express two AR subtypes similar to rainbowfish ARα and ARβ, biological processes mediated by a specific subtype may be affected differently by progestins such as norgestimate.
源自19-去甲睾酮的合成孕激素可在鱼类中引发多种不良反应,包括繁殖力下降、激素水平改变、正常繁殖周期紊乱、雌性出现雄性特异性生物标志物、雌性出现雄性第二性征以及类固醇生成基因表达变化。最近的一项体外研究表明,这类孕激素的一些代表物是黑头呆鱼雄激素受体(AR)的强效激动剂,而对同一物种的孕激素受体(PR)只是弱激动剂。这证实了源自19-去甲睾酮的合成孕激素在硬骨鱼类中作为AR激动剂发挥作用,硬骨鱼类表达单一的AR亚型。然而,已知许多鲈形目鱼类表达两种AR亚型。我们最近表明,墨累-达令虹鱼(Melanotaenia fluviatilis)的ARα和ARβ对某些雄激素和抗雄激素的反应不同。本研究的目的是在虹鱼ARα、ARβ和PR驱动的反式激活试验中确定所选孕激素的浓度-反应曲线,以确定孕激素对这些受体的相对效力。作为确认研究中使用的孕激素和参考化合物对人源受体预期活性的一种方法,我们还使用人PR和AR驱动的反式激活试验建立了浓度-反应关系。我们发现,所测试的所有五种源自19-去甲睾酮的孕激素都是虹鱼ARα的高效激动剂,但五种孕激素中只有四种是虹鱼ARβ的强效激动剂,诺孕酯对虹鱼ARβ仅表现出弱活性。螺内酯衍生的孕激素屈螺酮不是虹鱼ARα或ARβ的激动剂,但却是虹鱼PR的弱激动剂。19-去甲睾酮类孕激素均未激活虹鱼PR。这些发现证实,大多数源自19-去甲睾酮的孕激素可能在硬骨鱼类中引发强烈的雄激素活性,但PR介导的效应将微乎其微。在表达与虹鱼ARα和ARβ类似的两种AR亚型的物种中,由特定亚型介导的生物过程可能会受到诺孕酯等孕激素的不同影响。
