非洲爪蟾在生态毒理学研究中的应用（Ⅲ）——生殖内分泌干扰作用的评价

两栖动物生殖内分泌系统(如性别分化、性腺发育、第二性特征)对性激素的敏感性,使得该类动物可用于研究内分泌干扰物(Endocrine Disrupting Chemicals,EDCs)对生殖内分泌系统的干扰作用.两栖动物非洲爪蟾是发育生物学研究的经典模型动物,多年来积累的有关其生殖内分泌的资料可以为生殖内分泌干扰的研究提供参考.论文分析了非洲爪蟾作为评价生殖内分泌干扰作用模型动物的理论基础,总结了评价生殖内分泌干扰作用目前使用的几个指标(性别分化、性腺形态、性腺组织学结构、性激素水平、卵黄蛋白原表达等生物标记),综述了非洲爪蟾在评价酚类化合物、阿特拉津、多氯联苯等几种EDCs的生殖内分泌干扰作用中的应用,最后讨论了非洲爪蟾作为一种评价EDCs生殖内分泌干扰作用的模型动物目前存在的问题.毫无疑问,非洲爪蟾是生殖内分泌干扰研究的良好模型动物,为促进该模型动物更好的应用,需要加强非洲爪蟾生殖生物学和内分泌学的研究.     

Medaka (Oryzias latipes) for use in evaluating developmental effects of endocrine active chemicals with special reference to gonadal intersex (testis-ova).

Japanese medaka (Oryzias latipes) has been widely used for the evaluation of the toxicity of endocrine active chemicals (EACs) and other chemicals as well as for monitoring the adverse effects of effluent discharges in relation to sexual development and function. It is useful for these evaluations for many reasons including the following: 1) it has a short life cycle facilitating studies extending over long phases of development and over multigenerations, 2) it is easy to rear, 3) male and female phenotypes can easily be distinguished on the basis of secondary sex characteristics, and 4) a genetic marker (DMY) is available for identifying the true genotypic sex. Several biomarkers have been found to be useful for identifying the effects of exposure to estrogenic and androgenic chemicals in medaka and they include increased levels of hepatic vitellogenin (VTG) and testis-ova induction in males for exposure to estrogenic chemicals, and decreased levels of hepatic VTG in females and an altered morphology of dorsal and anal fins and formation of papillae for androgenic chemicals. In this paper, we present a critical analysis of the use of medaka as a test species for studies of endocrine disruption and report on the use of sex-related genetic markers and alterations in gonadal development, including the induction of testis-ova formation, for assessing the disruptive effects of EACs. In this paper, we focus on some of the more recent studies and findings.     

A review on environmental distributions and risk management of phenols pertaining to the endocrine disrupting chemicals in Taiwan

Some phenols, including pentachlorophenol, dichlorophenol, alkylphenols (nonylphenol & octylphenol) and bisphenol-A, have been identified as endocrine disrupting chemicals (EDCs). These phenolic EDCs are extensively used in a wide range of household products, thus posing potential health risks for humans exposed to them. From the viewpoints of ecotoxicology, human health and regulations, it is urgent to restrict the emissions and releases of these estrogenic chemicals from the industrial processes and commercial products. This review article first focused on the physicochemical properties of phenolic EDCs and their industrial/commercial uses. Furthermore, their environmental distributions and regulatory frameworks for integrated risk management of these chemicals in Taiwan were conducted as a case study. Emphasis was thus put on the cross-ministerial joint venture (i.e., environment, health, agriculture, labor, and industry authorities), and the government policy on the risk management of EDCs. Finally, some recommendations for pollution prevention and toxicity reduction of phenolic EDCs were also addressed and analyzed to progress towards a sustainable society in Taiwan.     

污水处理厂出水中抗雄激素样化合物控制的优先性研究

污水处理厂出水是环境中内分泌干扰物的重要来源之一。针对关注较少的抗雄激素样内分泌干扰物,在已有研究基础上,依据抗雄激素样化合物的抗雄激素样活性风险,建立了污水处理厂出水中抗雄激素样化合物控制的优先性排序方法。在污水处理厂出水中,共有147种疑似抗雄激素样化合物需要关注,主要为农药类,约占总数的60%。抗雄激素样活性风险排名前10%的化合物如下:邻苯二甲酸二丁酯、邻苯二甲酸二己酯、双酚A、溴螨酯、对叔辛基酚、腐霉利、烯菌酮、氯苯嘧啶醇、烯酰吗啉、杀螟松、十二烷基酚、敌草隆、咯菌酯、2-羟基-4'-甲氧基二苯甲酮、以及邻苯基苯酚。     

环境内分泌干扰物对鱼类性别决定的影响研究进展

水体中的环境内分泌干扰物能够影响鱼类性别决定过程,对鱼类产生明显的雌、雄性化效应.为深入研究环境内分泌干扰物对鱼类性别决定的影响及其机制,论文介绍了鱼类性别决定基因SRY和DMY基因在鱼类性别决定中的作用,以及Sox、DMRT、CYP和Vasa、Dax1、Foxl2等鱼类性别决定相关基因对鱼类性别决定的调控作用,综述了各类环境内分泌干扰物引起的鱼类雌、雄性化效应的最新研究进展,在此基础上探讨了环境内分泌干扰物影响鱼类性别决定的作用机制,并展望了该领域今后的重点研究方向.     

Interactions of Endocrine-active environmental chemicals with the nuclear receptor PXR

There is growing concern about the human-health impact of environmental chemicals that have the potential to disrupt normal endocrine function. Endocrine disrupting chemicals (EDCs) include structurally diverse organochlorine pesticides, polychlorinated biphenyls (PCBs), plasticizers, fungicides, herbicides and pharmaceutical compounds, and can have a profound impact on development, and on reproductive, neurological and immune system functions. While many studies have focused on the role of androgen receptor, estrogen receptor and aryl hydrocarbon receptor in mediating the effects of EDCs, other nuclear receptors that regulate steroid hormone action and metabolism may also serve as targets of EDC action. This review focuses on two classes of EDCs, PCBs and phthalate monoesters, both of which have been shown to interact with pregnane X receptor (PXR), a member of the nuclear receptor superfamily that regulates a large number of target genes, many of which have important roles in steroid metabolism and transport. Recent findings on the ability of PCBs and phthalate monoesters to activate PXR are discussed and the potential role of PXR and other intracellular receptor proteins in mediating toxicities associated with EDC exposure is considered. Finally, we discuss several gaps in our knowledge regarding the actions of EDCs and the difficulties associated with the evaluation of risks associated with exposure to these endocrine active environmental chemicals.     

构建有机化合物斑马鱼雌激素干扰效应的二元分类模型

计算毒理学方法已成为辅助内分泌干扰物(EDCs)管理的决策支持工具。因此,发展内分泌干扰效应指标的(定量)结构活性关系((Q) SAR)等预测模型对于实现EDCs环境管理具有重要的意义。在雌激素受体(Q) SAR模型研究方面,目前主要针对人、牛、大鼠和小鼠等物种的雌激素受体干扰效应进行了研究,而对鱼等水生生物雌激素受体干扰效应等指标的(Q)SAR模型研究还较少。本研究采用基于欧几里德距离的K最近邻(k NN)分类算法,构建了斑马鱼雌激素受体干扰效应的二元分类模型。结果表明,2个最优模型训练集和验证集的预测准确度(Q)、敏感性(Sn)和特异性(Sp)参数均大于0.93,说明模型具有较好的预测能力。因此,能够用所建模型填补模型应用域内其他化合物缺失的斑马鱼雌激素受体干扰效应定性数据。     

受体功能区结构与环境内分泌干扰效应生物差异的关系

环境中存在的多种内分泌干扰物能够与生物体内的天然激素受体选择性结合并产生多种生物效应,由于受体功能区三维结构的不同,其内分泌干扰活性存在着种间、种内、组织间等的种种差异,限制了不同物种间毒性效应的外推研究,增加了环境内分泌干扰物筛选和风险评价的难度.论文综述了基于受体介导的环境内分泌干扰物生物活性与相应受体选择性及受体功能区结构关系的研究进展,并利用分子模拟方法分析探讨了雌激素受体与部分化合物结合作用模式,讨论了目前存在的问题,对以后有关方面的研究提出了建议.     

Occurrence of estrogenic endocrine disrupting chemicals concern in sewage plant effluent

The purpose of this study was to give a worldwide overview of the concentrations of typical estrogenic endocrine disrupting chemicals （EDCs） in the effluent of sewage plants and then compare the concentra- tion distribution of the estrogenic EDCs in ten countries based on the survey data of the estrogenic EDCs research. The concentrations of three main categories （totally eight kinds） of estrogenic EDCs including steroidal estrogens （estrone （El）, estradiol （E2）, estriol （E3） and 17a- ethynylestradiol （EE2））, phenolic compounds （nonylphe- nol （NP） and bisphenol A （BPA）） and phthalate esters （dibutyl phthalate （DBP） and dibutyl phthalate （2- ethylhexyl） phthalate （DEHP）） in the effluents of sewage plants reported in major international journals over the past decade were collected. The statistics showed that the concentration distributions of eight kinds of EDCs were in the range of ng·L^-1 to μg·L^-1. The concentrations of steroidal estrogens mainly ranged within 50.00 ng. L-1, and the median concentrations of El, E2, E3 and EE2 were 11.00, 3.68, 4.90 and 1.00 ng·L^-1, respectively. Phenolic compounds and phthalate esters were found at pg. L-1 level （some individual values were at the high level of 40.00 μg·L^-1）. The median concentrations of BPA, NP, DBP and DEHP were 0.06, 0.55, 0.07 and 0.88 μg·L^-1, respectively. The concentrations of phenolic compounds and phthalate esters in the effluents were higher than that of steroids estrogens. The analysis of the concentration in various ten countries showed that steroids estrogens, phenolic compounds and phthalate esters in sewage plant effluents were detected with high concentration in Canada, Spain and China, respectively.     

Occurrence of endocrine disruptor compounds in the estuary of the Iberian Douro River and nearby Porto Coast (NW Portugal)

Previous studies in the Douro River estuary, based on occasional sampling, showed the presence of several estrogenic disrupting chemicals (EDCs). In sequence, we hypothesized that such type of pollution was more likely an enduring issue than an occasional phenomenon, and that it may even affect recreational beaches in each side of the estuarine mouth. Thus to conclude about the continuous influx of EDCs, water samples were taken twice a day, once per a week, from March to May of 2009, at four sites within the estuary and at two sites in the coastline. After solid-phase extraction, the extracts were prepared for GC-MS analysis of 11 reference EDCs. These embraced natural and pharmaceutical estrogens (17β-estradiol, estrone and 17α-ethynylestradiol) and xenoestrogenic industrial pollutants (4-octylphenol, 4-nonylphenol, and their mono and diethoxylates and bisphenol A). Data showed the ubiquitous presence of potentially hazardous amounts of natural estrogens (particularly of estradiol, ca 5.5?ng?L^?1) and persistent organic pollutants such as nonylphenol mono (up to 550?ng?L^?1) and diethoxylate (up to 2000?ng?L^?1). It was concluded that the targeted area is continuously polluted by the assayed EDCs, and as a consequence, conditions exist for endocrine disturbance in the biota by chronic exposure to EDCs.     

环境内分泌干扰物对鱼类性别分化的影响

鱼类性别分化是在性别决定机制的控制下,鱼类未分化的性腺向卵巢或精巢发育,并出现第2性征的过程,受自身内分泌系统的精确调控。环境内分泌干扰物能通过干扰内源激素的合成、释放、转运、代谢、结合和作用等过程影响鱼类的内分泌机能,从而对鱼类的性别分化产生影响。介绍了鱼类性别分化的模式和过程以及内分泌系统对鱼类性别分化的调控作用,综述了环境内分泌干扰物对鱼类性别比例、配子发生、性腺发育和第2性征的影响,从性类固醇激素的合成以及性别分化相关基因的表达两个方面探讨了环境内分泌干扰物影响鱼类性别分化的作用机制,并展望了该领域未来的研究方向。     

多氯联苯羟基化代谢物及其雌激素效应研究进展

多氯联苯作为一种环境内分泌干扰物,具有一定的雌激素干扰效应,导致动物雌激素水平紊乱或功能异常,从而影响生殖、发育或行为。羟基多氯联苯是多氯联苯最主要的活性代谢产物,已经在动物和人体组织中被检出。羟基多氯联苯的化学性质和分子空间构象使其雌激素干扰效应可能较母体化合物更强。因此,它们对人类和动物机体的潜在影响以及由此带来的新的毒理学问题成为内分泌干扰研究领域的热点之一,相关的毒性作用机制需要进一步探索。本文对多氯联苯的代谢途径、羟基多氯联苯在生物体内的暴露水平、雌激素干扰效应及作用机制进行综述。     

计算毒理学在内分泌干扰物筛选上的应用和展望

内分泌干扰物通过干扰内分泌系统导致多种疾病,如生殖疾病、肥胖症甚至癌症。然而,面对环境中大量潜在的内分泌干扰物,传统的体外、体内评估方法由于成本高、耗时长等问题,难以实现内分泌干扰物的高通量筛查。计算毒理学逐渐发展成为被美国环保局(Environmental Protection Agency,EPA)、经济合作与发展组织(Organization for Economic Co-operation and Development,OECD)等机构所推荐的内分泌干扰物筛选与预测方法。本文综述了计算毒理学在内分泌干扰物筛选上的进展,主要包括分子对接和分子动力学模拟的应用,并对有害结局路径(adverse outcome pathway,AOP)的方法进行介绍和展望。     

Application of permanganate in the oxidation of micropollutants: a mini review

As a green oxidant, permanganate has received considerable attention for the removal of micropollutants in drinking water treatment. To provide a better understanding of the oxidation of organic micropollutants with permanganate, the oxidation kinetics of 32 micropollutants were compiled. The pollutants include algal toxins, endocrine disrupting chemicals (EDCs), and pharmaceuticals. The oxidation kinetics of micropollutants by permanganate were found to be first order with respect to both contaminant and permanganate concentrations from which second-order rate constants (k″) were obtained. Permanganate oxidized the heterocyclic aromatics with vinyl moiety (i.e., microcystins, carbamazepine, and dichlorvos) by the addition of double bonds. For the polycyclic aromatic hydrocarbons (PAHs) with alkyl groups, permanganate attacked the benzylic C-H through abstraction of hydrogen. The mechanism for the oxidation of phenolic EDCs by permanganate was a single electron transfer and aromatic ring cleavage. The presence of background matrices could enhance the oxidation of some phenolic EDCs by permanganate, including phenol, chlorinated phenols, bisphenol A, and trichlosan. The toxicity of dichlorvos solution increased after permanganate oxidation, and the estrogenic activity of bisphnol A/estrone increased significantly at the beginning of permanganate oxidation. Therefore, the toxicity of degradation products or intermediates should be determined in the permanganate oxidation processes to better evaluate the applicability of permanganate. The influence of background ions on the permanganate oxidation process is far from clear and should be elucidated in the future studies to better predict the performance of permanganate oxidation of micropollutants. Moreover, methods should be employed to catalyze the permanganate oxidation process to achieve better removal of micropollutants.     

Störungen der Entwicklung und Funktion des männlichen Reproduktionssystems

Various recently published studies indicate increases in disorders of development and function of the male reproductive system during the last decades. This refers to reports on a decline in sperm count and increased incidences of testicular cancer, cryptorchidism and hypospadias. While the results of studies on the increase in (geographically varying) incidences of testicular cancer are unequivocal, data on changes in rates of cryptorchidism and hypospadias are rather limited. Meanwhile, numerous retrospective studies on changes in sperm concentrations in the ejaculate of normal men have been published. However, at present it is not possible to draw generally valid conclusions since results from some countries or geographic regions indicate a significant decline while in others either no changes or even slight increases have been reported. According to the so-called “Estrogen hypothesis”, the common cause of these disorders shall be an increased prenatal exposure to estrogens. Concerning exogenous estrogens, synthetic estrogens, phyto and mycoestrogens, and chemicals with estrogenic activity could play a role. A search in the available literature has revealed that at present more than 100 chemical compounds from different classes are known to possess estrogenic activity. This, however, is not the only way in which chemicals may be endocrinically active. Ubiquitously distributed compounds from the classes of polychlorinated dibenzodioxins/furans and biphenyls exhibit an antiestrogenic potential, while chemicals like p,p′-DDE, Linuron and Vinclozolin being competitive androgen receptor antagonists may act as antiandrogens. Concerning the very limited current knowledge, the estrogen hypothesis at present only represents an interesting basis for discussion. Most questions that would have to be answered in order to accept, reject or modify tis hypothesis are either completely open or only partially understood. Thus, there is an urgent need to initiate research efforts to clarify the toxicological significance for ecosystems and humans of chemicals with endocrine activity.     

环境内分泌干扰物低剂量-效应研究进展

环境内分泌干扰物(EDCs)的低剂量-效应已成为生态毒理学界的研究热点.环境内分泌干扰物在接近或低于无可见不良效应浓度水平(NOAEL)时仍可诱发生物效应并存在非单调剂量-效应关系,这对现行的动物繁殖和发育毒理学检测规程以及环境内分泌干扰物风险评价的理论和方法提出了挑战.此外,由于环境中内分泌干扰物呈低剂量长期暴露的特征,研究低剂量-效应对正确进行生态风险评价具有重大的科学意义.在总结国内外相关研究的基础上,对当前环境内分泌干扰物低剂量-效应的研究进展进行了综述.     

Hormonaktive Xenobiotika

Developmental and reproductive processes are most sensitive to the toxic effects of environmental chemicals. Especially alarming is the fact that many groups of industrial chemicals and pesticides are capable of disrupting the endocrine system in man and animals. Of great concern is the reduction in the sperm count in Europe, but also the worldwide increase in a great number of reproductive and developmental disturbances observed in both man and wildlife. A correlation to a high chemical burden has been demonstrated for many different animal species as well as for women. An important consideration in assessing the potential effects of environmental chemicals on the endocrine system is the time at which such an exposure occurs. In the adult organism, hormones initiate functional processes; these effects are usually transient. In early life, hormones control developmental processes and are capable of producing permanent changes in organ structure and function (organizational effects). Therefore, chemical disruption of hormonal functions during development can result in permanent functional changes of the afflicted organ.     

建立组织外植体的共培养模型(in vitro)用于预测内分泌干扰效应(in vivo)：以黑头软口鲦(Pimephales promelas)的下丘脑-垂体-性腺（HPG）轴内分泌干扰作用为例

内分泌干扰物 （Endocrine Disrupting Compounds, EDCs）可以通过干扰下丘脑-垂体-性腺（HPG）轴来影响生殖系统。虽然目前已有筛选内分泌干扰物的体外检测方法,但这些方法在用于体内实验时却有着不稳定的准确性。本文记录了以黑头呆鱼（Pimephales promelas）的下丘脑-垂体-性腺轴与肝（HPG-L）的共培养组织作为组织外植体来模拟体内反应的结果。我们对成年鱼的大脑（下丘脑）,垂体,性腺和肝进行了单独和共同培养的检测来确定可以在体内重复的情况与组合。只有共培养体表现出去甲雄三烯醇酮对于雌二醇,睾酮和卵黄生成素生成趋势的影响。较低的暴露剂量会抑制激素生成,而较高的暴露剂量则会促进激素生成,形成U型作用曲线。这些数据表明下丘脑-垂体-性腺-肝轴的全部组织的共同培养可以作为体内实验与体外实验的连接,从而预测在完整生物体内内分泌系统的扰乱。本实验中以组织为基础的下丘脑-垂体-性腺-肝系统作为一个灵活的体内系统的解构版本得到了更好的实验控制。通过分离、审查和重组需要的组织,我们能够检测到生物系统功能与对于内分泌干扰物反应中的微小变化。
精选自Theresa K. Johnston, Edward Perkins, Duncan C. Ferguson, Donald M. Cropek. Tissue explant co-culture model of the hypothalamic-pituitary-gonadal-liver axis of the fathead minnow (Pimephales promelas) as a predictive tool for endocrine disruption. Environmental Toxicology and Chemistry: Volume 35, Issue 10, pages 2530–2541, October 2016. DOI: 10.1002/etc.3415
详情请见http://onlinelibrary.wiley.com/doi/10.1002/etc.3415/full
     

Estrogen content and relative performance of Japanese and British sewage treatment plants and their potential impact on endocrine disruption.

Both the UK and Japan are densely populated islands with relatively short rivers. Therefore, both countries are likely to be highly exposed to contaminants emanating from their human populations. This review considered how effective the different sewage treatment facilities of the two countries are at removing steroid estrogens from the effluent. The methods of estrogen analysis in sewage effluent, the number and importance of different sewage treatment types, and their apparent effectiveness at removing estrogens were all considered. In both countries, the activated sludge treatment was dominant in terms of people served and water discharged. The analytical techniques used by those studying estrogen concentrations in effluents in both countries were broadly similar. Activated sludge plant (ASP) effluent in the UK typically contained around 2 ng/L estradiol (E2) and 8 ng/L estrone (E1), while Japanese ASPs typically reported E2 as below detection, and 10 ng/L E1 in their effluents. When estrogenic bioassays were used in Japan, they typically record an estrogenic potency of 10 ng/L E2 equivalents. Even taking into account ethinylestradiol (EE2) (not found in Japanese effluents), the overall estrogenicity of British sewage effluents would appear to be the same as that of Japanese sewage effluents (around 10 ng/L E2 equivalents). This suggests that the ASPs serving the large urban communities in Japan and the UK would have effluent of similar estrogenic potencies. Less information is available about the more numerous biological (trickling) filter plants (BFP) in the UK and oxygen ditches (OD) in Japan which tend to serve smaller, more rural communities. The available data would suggest that the BFPs are significantly less efficient than the ODs at removing E1. This would suggest that in similar circumstances, British headwaters (where this sewage treatment plant (STP) type is often found) might be more at risk from endocrine disruption than their Japanese counterparts. Overall, the apparently higher incidence of endocrine disruption in British wild fish than in Japanese wild fish cannot be attributed to differences in the efficiency of their respective STPs.