PFOS对斑马鱼胚胎及仔鱼的生态毒理效应

全氟辛烷磺酸（Perfluorooctane sulfonate, PFOS）是一种广泛存在于水生生态系统的新型持久性有机污染物（Persistent Organic Pollutants, POPs）,其对鱼类健康的影响以及水生生态系统安全的潜在威胁是当前人们高度关注的水环境问题。为探究PFOS对斑马鱼（Danio rerio）胚胎及仔鱼的生态毒理效应,本文研究了不同浓度（0,0.1,1,10 mg/L）PFOS暴露对斑马鱼胚胎孵化率、仔鱼畸形率与死亡率、仔鱼心率、仔鱼运动行为以及生长的影响。结果表明：PFOS暴露对斑马鱼胚胎孵化率、孵出仔鱼死亡率与畸形率的影响显著（P﹤0.05）,10 mg/L PFOS暴露导致胚胎孵化率下降,孵化延迟,仔鱼死亡率与畸形率升高;PFOS暴露4 dpf（day post-fertilization,dpf）或8 dpf 对斑马鱼仔鱼心率影响显著（P﹤0.05）,心率随PFOS暴露浓度升高而增加;PFOS 暴露6 dpf 或9 dpf 对斑马鱼仔鱼的运动行为影响显著（P﹤0.05）,10 mg/L PFOS暴露6 dpf 导致运动斑马鱼仔鱼比例和仔鱼最大持续运动距离增加（P﹤0.05）,PFOS暴露9 dpf,单位时间内仔鱼的运动距离、停顿频率、平均每次运动距离随PFOS暴露浓度升高而减少（P﹤0.05）,最大持续运动距离随PFOS暴露浓度升高而增加（P﹤0.05）,呈剂量依赖的毒理学效应;PFOS暴露导致斑马鱼仔鱼体长和吻宽下降（P﹤0.05）或有下降的趋势,并对吻宽/体长、吻宽/头长影响显著（P﹤0.05）。以上研究结果提示：PFOS对斑马鱼胚胎及仔鱼具有显著的发育与行为毒性,仔鱼心率、运动行为、吻宽/体长以及吻宽/头长等是评估水体PFOS污染敏感而有效的生物标志物。     

铅和邻苯二甲酸二丁酯联合暴露对斑马鱼胚胎的影响

为了研究铅(Pb)和邻苯二甲酸二丁酯(DBP)单独及联合暴露对斑马鱼胚胎神经发育和细胞凋亡相关基因表达的影响,考察两者对斑马鱼胚胎神经系统的毒性作用。将720个斑马鱼胚胎按3×3析因设计随机分为9组,以Pb(0、0.01 mg/L和1 mg/L)和DBP(0、0.005 mg/L和0.5 mg/L)单独及联合对斑马鱼胚胎暴露120 h。观察、记录胚胎的孵化、死亡情况,采用荧光定量PCR测定斑马鱼胚胎神经发育相关基因(NR1A、NR2A、NR2D)和神经细胞凋亡相关基因(bcl-2、c-fos)的表达变化情况。与空白对照组相比,各暴露组均可致斑马鱼胚胎孵化率降低、死亡率增高(P0.05);联合暴露组NR1A、NR2A、NR2D、c-fos基因表达水平显著升高,bcl-2基因表达水平显著下降(P0.05)。Pb和DBP均可影响斑马鱼胚胎的发育,且具有一定的神经毒性,而二者联合暴露毒性复杂,对斑马鱼胚胎孵化率和死亡率的影响有交互作用,对神经发育和细胞凋亡相关基因无交互作用,其机制有待进一步研究。     

纳米卟啉金属有机骨架对斑马鱼神经系统发育的作用*

目的:研究纳米卟啉金属有机骨架(NPMOF)对斑马鱼幼鱼神经系统发育的作用。方法:斑马鱼胚胎在发育6 h(hpf)后随机分为两组:对照组(n=500)和暴露组(n=500),对照组斑马鱼孵化于E3溶液中,暴露组于100 mg/L的NPMOF-E3溶液中,持续暴露至28、48、72、96或120 hpf。以20条斑马鱼为一批,在28、48、72、96和120 hpf分别提取3批实验组和对照组的总RNA用于RT-PCR;在120 hpf,实验组和对照组分别取20条PTU处理过的斑马鱼用于整体胚胎原位杂交,同样是在120 hpf,每组取150条用于免疫荧光染色,30条用于行为学测试。NPMOF的形状和尺寸用透射电镜测定,其光学特性由紫外分光光度计和荧光光谱仪测定;通过免疫荧光、整体胚胎原位杂交和RT-PCR方法检测各类神经细胞的发育;行为学测试用来监测斑马鱼运动状态的改变。结果:与正常组比较,NPMOF暴露组中神经发育相关基因的表达明显升高(P＜0.05),müller细胞和星形胶质细胞的数量明显增加(P＜0.05),神经元和少突胶质细胞的分布与形态未显示出差异;行为学测试中,斑马鱼的总运动距离、快速运动时间和运动速度的值显著增加(P＜0.05),总静止时间明显降低(P＜0.05)。结论:100 mg/L NPMOF溶液的持续暴露对斑马鱼神经系统发育,特别是视网膜中müller细胞和脑中星形胶质细胞的发育有促进作用。     

硫代硫酸钠干扰斑马鱼胚胎发育并致畸

硫的衍生物潜在的威胁着胚胎的发育过程.斑马鱼被用于研究不同浓度（1×10-6～1 mol/L）的硫代硫酸钠（sodium thiosulfate, STS）对胚胎发育的影响,在解剖显微镜下实时观察斑马鱼胚胎发育的全过程.采用Western 印迹法检测乙酰化的微管蛋白——α-微管蛋白（acetylated tubulin, α-tubulin）和神经元增殖细胞核抗原（proliferating cell nuclear antigen,PCNA）的表达,分别检测STS暴露后胚胎的运动神经元功能,神经元的增殖状态.发育中的斑马鱼胚胎暴露于0.1～1 mol/L STS,呈现出严重的发育迟缓,并且伴随多脏器畸形;暴露于10 μmol/L～10 mmol/L STS,胚胎呈现循环系统,神经系统以及颌面部畸形.胚胎在48 hpf (hours post fertilization)时,对STS的暴露敏感高于24 hpf和96 hpf.STS可能干扰细胞的增殖及运动神经元的正常分化.STS可能干扰正常的细胞骨架结构,并在胚胎发育晚期影响细胞增殖,对胚胎神经系统、循环系统及颌面部有致畸作用.     

慢性镉暴露对斑马鱼卵巢组织的氧化损伤和子代发育的母源影响

目的:采用半静态毒性实验方法,研究慢性镉暴露对性成熟斑马鱼卵巢组织抗氧化酶活性、脂质过氧化水平的影响及其母源传递毒性效应。方法:依据前期测定的96 h LC50,参考国家渔业标准,设置5个镉处理组(0.058、0.116、0.232、0.580、1.160 mg/L)和1个对照组,镉暴露21 d后,对卵巢组织超氧化物歧化酶(SOD)、过氧化氢酶(CAT)、谷胱甘肽过氧化物酶(GPx)活性及脂质过氧化物丙二醛(MDA)含量进行测定,并对其受精率、F1代胚胎孵化率及96 hpf幼鱼体长进行统计分析。结果:不同浓度镉暴露均导致卵巢组织SOD、CAT和GPx活性显著降低、MDA含量显著升高并呈浓度依赖效应。子代母源毒性分析显示,与对照组相比,0.232和0.580 mg/L浓度组受精率均显著下降,0.232 mg/L浓度组F1代胚胎孵化率显著降低;各浓度组受精后96 h幼鱼体长与对照组相比有显著性差异,且随着镉浓度的增加体长显著变短。结论:慢性镉暴露导致斑马鱼卵巢组织抗氧化酶活性受到显著抑制,对组织和细胞造成严重氧化损伤,并通过母源传递导致子代发育的毒性效应。     

杀菌剂苯并异噻唑啉酮对斑马鱼胚胎的急性毒性和氧化应激效应研究

苯并异噻唑啉酮(Benzisothiazolin,BIT)是一种广泛使用的工业防腐剂,在水体中分布较广,对水生生物特别是对鱼类存在潜在威胁。本研究以斑马鱼为受试生物,通过96 h急性暴露实验,氧化应激效应检测和相关基因表达量的分析,研究BIT对斑马鱼胚胎的发育毒性和氧化损伤。结果表明BIT对受精后51 h(51 hours post-fertilization,51 hpf)斑马鱼胚胎孵化具有强烈抑制作用,能导致胚胎畸形,96 h半致死浓度(96 h half lethal concentration,96h-LC50)为3.65 mg/L,96 h半数致畸浓度(96 h half teratogenic concentration,96 h-TC50)为1.31 mg/L。氧化应激相关酶(SOD,CAT,GST)的活性都受到了不同程度的影响,抗氧化相关基因(Mn-sod,cat,gstp-2,nqo-1,cox-1和ucp-2)的表达量也受到了干扰,这些结果说明机体受到了严重的氧化损伤。细胞凋亡相关基因(bcl-2和bax)的表达模式也向着促进凋亡的方向发生改变,表明氧化损伤导致了细胞凋亡。BIT对斑马鱼胚胎具有很高的发育毒性,能造成机体氧化损伤,最终导致胚胎死亡。本实验结果可为BIT在环境中的风险管理提供科学依据。     

迷迭香酸对硫酸铜致斑马鱼胚胎毒性的抑制作用

本文探讨硫酸铜(CuSO_4)对斑马鱼(Danio rerio)胚胎发育的毒性效应,使用迷迭香酸(RA)抑制CuSO_4对斑马鱼胚胎发育的毒性并探讨其作用机制。收集受精后1 h(1 hpf)的斑马鱼胚胎暴露于不同浓度的CuSO_4溶液,或含有不同浓度迷迭香酸的CuSO_4溶液,对照组培养在E3培养液中,观察胚胎死亡、孵化及畸形情况,计算胚胎死亡率、孵化率和畸形率;以活性氧(ROS)荧光探针DCFH-DA染色法检测迷迭香酸保护下胚胎的活性氧水平。对实验数据进行方差分析。结果显示:(1)CuSO_4浓度超过一定量时能诱导斑马鱼胚胎死亡和畸形,胚胎孵化率也降低。CuSO_4对96 hpf斑马鱼胚胎的半致死浓度(LC50)为7.7μmol/L,半致畸浓度(EC50)为1.9μmol/L。(2)在96 hpf,迷迭香酸与8μmol/L CuSO_4共同处理组斑马鱼胚胎的死亡率明显降低,孵化率升高。迷迭香酸与1.6μmol/LCuSO_4共同处理组斑马鱼胚胎的畸形率降低。(3)CuSO_4单独处理组的活性氧含量明显高于迷迭香酸与CuSO_4共同处理组和对照组。结果表明,CuSO_4暴露对斑马鱼胚胎发育的毒性效应可能与活性氧升高导致的氧化应激相关;迷迭香酸抑制CuSO_4对斑马鱼胚胎发育的毒性作用,可能与减少活性氧生成有关。     

诺氟沙星对斑马鱼胚胎发育的毒性作用及对TGF-β1的影响

旨在通过观察不同浓度诺氟沙星对斑马鱼胚胎不同发育时期的毒性作用,以及对TGF-β1基因表达的影响。配制诺氟沙星浓度为0、10、20、40μmol/L,将斑马鱼胚胎暴露在上述浓度的诺氟沙星中。观察在胚胎不同发育时期,诺氟沙星对斑马鱼脊柱弯曲、心包囊肿、卵黄囊肿和死亡率的影响,以及使用实时定量聚合酶链式反应(q PCR)检测其对TGF-β1基因表达的影响。结果显示,诺氟沙星对斑马鱼的胚胎发育有明显影响,主要表现在脊柱弯曲、心包囊肿和卵黄囊肿,随着诺氟沙星暴露浓度的增大,胚胎的发育延迟,孵化时间延长,胚胎死亡率增加;当诺氟沙星暴露浓度为40μmol/L时,96 hpf的胚胎死亡率达到76.45%;与正常状态相比,暴露于不同浓度诺氟沙星的斑马鱼胚胎中TGF-β1基因的m RNA表达随发育时间延长而增加趋势减缓。说明诺氟沙星对斑马鱼胚胎发育的致畸作用与致死作用有显著的影响。提示水体中残留的诺氟沙星对鱼类的生殖与发育具有潜在的危害。     

叶酸缺乏对斑马鱼背主动脉发育的影响

目的观察叶酸缺乏斑马鱼胚胎的背主动脉（DA）发育情况,初步探讨叶酸缺乏后胚胎DA发育异常的机理。方法采用将二氢叶酸还原酶（DHFR）功能阻断的方法构建叶酸缺乏斑马鱼模型,分别应用DHFR抑制剂甲氨蝶呤（MTX）以及DHFR基因knock-down技术处理斑马鱼胚胎。在胚胎发育至48 hpf时在显微镜下观察胚胎的整体发育情况,在60 hpf时应用荧光显微造影的方法观察胚胎的背主动脉发育状况。利用胚胎整体原位杂交和real-time PCR的方法检测影响DA发育的关键因子ephrinB2、Ang-1和Radar的表达情况,利用TUNEL法检测胚胎底索的凋亡情况。结果MTX处理组胚胎以及DHFR knock-down组胚胎有相似的胚胎发育异常表型。荧光显微造影显示叶酸缺乏组胚胎的DA发育异常。叶酸缺乏组胚胎的ephrinB2、Ang-1和Radar表达减弱,底索凋亡增加。结论叶酸缺乏可导致斑马鱼胚胎背主动脉发育异常,其机理与ephrinB2、Ang-1和Radar的表达减弱以及底索凋亡增加有关。     

富马酸二甲酯对斑马鱼胚胎早期发育的影响

为研究富马酸二甲酯对斑马鱼(Danio rerio)胚胎早期发育的影响,选取不同发育阶段的斑马鱼胚胎,用富马酸二甲酯进行染毒处理,观察胚胎形态发育的异常,计算其对不同发育时期胚胎的24 h、48 h半数致死浓度(LC50)和胚胎72 h孵化率,并考察富马酸二甲酯对胚胎血管发育的影响。结果表明,富马酸二甲酯影响斑马鱼胚胎的早期发育,呈剂量依赖性特点,并与开始处理的时间点有关。富马酸二甲酯引起2 hpf(受精后2 h,2 hours post-fertilization)、10 hpf、24 hpf斑马鱼胚胎死亡的24 h LC50值分别为:13.33μmol/L、17.98μmol/L、32.50μmol/L,48 h LC50值分别为:13.31μmol/L、16.35μmol/L、22.50μmol/L;长期低浓度富马酸二甲酯(≥6μmol/L)作用引起胚胎72 h孵化率下降。27.5μmol/L富马酸二甲酯作用后会显著降低胚胎血管内皮生长因子受体2(VEGFR2)的表达水平。     

PFOS Induces Behavioral Alterations,Including Spontaneous Hyperactivity That Is Corrected by Dexamfetamine in Zebrafish Larvae

Perfluorooctane sulfonate (PFOS) is a widely spread environmental contaminant. It accumulates in the brain and has potential neurotoxic effects. The exposure to PFOS has been associated with higher impulsivity and increased ADHD prevalence. We investigated the effects of developmental exposure to PFOS in zebrafish larvae, focusing on the modulation of activity by the dopaminergic system. We exposed zebrafish embryos to 0.1 or 1 mg/L PFOS (0.186 or 1.858 µM, respectively) and assessed swimming activity at 6 dpf. We analyzed the structure of spontaneous activity, the hyperactivity and the habituation during a brief dark period (visual motor response), and the vibrational startle response. The findings in zebrafish larvae were compared with historical data from 3 months old male mice exposed to 0.3 or 3 mg/kg/day PFOS throughout gestation. Finally, we investigated the effects of dexamfetamine on the alterations in spontaneous activity and startle response in zebrafish larvae. We found that zebrafish larvae exposed to 0.1 mg/L PFOS habituate faster than controls during a dark pulse, while the larvae exposed to 1 mg/L PFOS display a disorganized pattern of spontaneous activity and persistent hyperactivity. Similarly, mice exposed to 0.3 mg/kg/day PFOS habituated faster than controls to a new environment, while mice exposed to 3 mg/kg/day PFOS displayed more intense and disorganized spontaneous activity. Dexamfetamine partly corrected the hyperactive phenotype in zebrafish larvae. In conclusion, developmental exposure to PFOS in zebrafish induces spontaneous hyperactivity mediated by a dopaminergic deficit, which can be partially reversed by dexamfetamine in zebrafish larvae.     

Antibiotic Toxicity and Absorption in Zebrafish Using Liquid Chromatography-Tandem Mass Spectrometry

Evaluation of drug toxicity is necessary for drug safety, but in vivo drug absorption is varied; therefore, a rapid, sensitive and reliable method for measuring drugs is needed. Zebrafish are acceptable drug toxicity screening models; we used these animals with a liquid chromatography-tandem mass spectrometry (LC-MS/MS) method in a multiple reaction monitoring mode to quantify drug uptake in zebrafish to better estimate drug toxicity. Analytes were recovered from zebrafish homogenate by collecting supernatant. Measurements were confirmed for drugs in the range of 10–1,000 ng/mL. Four antibiotics with different polarities were tested to explore any correlation of drug polarity, absorption, and toxicity. Zebrafish at 3 days post-fertilization (dpf) absorbed more drug than those at 6 h post-fertilization (hpf), and different developmental periods appeared to be differentially sensitive to the same compound. By observing abnormal embryos and LD₅₀ values, zebrafish embryos at 6 hpf were considered to be suitable for evaluating embryotoxicity. Also, larvae at 3 dpf were adapted to measure acute drug toxicity in adult mammals. Thus, we can exploit zebrafish to study drug toxicity and can reliably quantify drug uptake with LC-MS/MS. This approach will be helpful for future studies of toxicology in zebrafish.     

1-苯基-2-硫脲对斑马鱼胚胎发育与黑色素生成的影响

目的1-苯基-2-硫脲（PTU）可抑制斑马鱼胚胎黑色素的产生,保持斑马鱼透明,便于形态观察和信号检测。本文研究了PTU对斑马鱼胚胎发育的影响和抑制斑马鱼胚胎黑色素生成,保持斑马鱼透明性的最佳浓度。方法用不同浓度PTU处理23hpf（受精后,hourspostfertilization,hpf）斑马鱼胚胎,作用57h后观察80hpf斑马鱼的形态学、生理学改变,计算死亡率和孵化率,测量心率和静脉窦-动脉球之间的距离。结果浓度为0．197mmo]／L、0．296mmol／LPTU可以有效抑制黑色素生成,保持斑马鱼整体透明,对斑马鱼心血管系统结构和生理功能无影响,且不影响斑马鱼正常孵化过程。随着PTU浓度的增加,斑马鱼死亡率增加,孵化率下降,出现心包水肿,心脏畸形等改变,心率下降,静脉窦-动脉球之间的距离增大。结论浓度不高于0．296mmol／L的PTU溶液能有效抑制斑马鱼黑色素生成,对斑马鱼心血管毒性研究无影响。     

微小染色体维系蛋白3基因在斑马鱼早期胚胎发育过程中的表达

目的:制备地高辛标记的微小染色体维系蛋白3(MCM3)基因的RNA探针,研究MCM3在斑马鱼早期发育中的时空表达。方法:收集并固定受精后24 h时期的野生型斑马鱼胚胎,提取总RNA,制备DIG标记的MCM3 RNA反义探针,整胚原位杂交,研究MCM3在斑马鱼胚胎早期发育过程的表达。结果:斑马鱼的MCM3氨基酸序列与小鼠、人具有高度同源性,通过不同时期胚胎的原位杂交,发现MCM3在早期发育过程中普遍性表达,胚胎受精后0~2 hMCM3在增殖性区域泛表达,受精后14~22 h在中枢神经系统、发育未成熟的眼部、体节及增殖性区域表达,受精后24 h在血液、中枢神经、翼板中脑、视觉盖及增殖性区域表达,受精后48 h在头部及肛门增殖性区域表达。结论:明确了MCM3在斑马鱼胚胎发育过程中的表达模式,证明其与早期斑马鱼发育细胞增殖密切相关,为研究该基因功能提供了一定的理论基础。     

马兜铃水提液对斑马鱼胚胎的致畸作用和心脏毒性的研究

目的：探索马兜铃水提液对斑马鱼胚胎的致畸作用和心脏毒性.方法：分别用不同浓度的马兜铃水提液和马兜铃酸A（AA）处理斑马鱼胚胎,观察致畸作用和对心脏发育影响.结果：给药组的斑马鱼胚胎出现畸形和死亡;当水提液中AA含量为0.5 μg/mL时,胚胎心率明显减慢;AA含量为5μg/mL时,胚胎在24～48 hpf之间全部死亡;水提液的LC50为1.43 μg/mL.结论：与AA相比,马兜铃水提液对斑马鱼胚胎有着更强的致畸和心脏毒性,且毒性作用具有时间和浓度依赖性.     

The Nicotine-Evoked Locomotor Response: A Behavioral Paradigm for Toxicity Screening in Zebrafish (Danio rerio) Embryos and Eleutheroembryos Exposed to Methylmercury

This study is an adaptation of the nicotine-evoked locomotor response (NLR) assay, which was originally utilized for phenotype-based neurotoxicity screening in zebrafish embryos. Zebrafish embryos do not exhibit spontaneous swimming until roughly 4 days post-fertilization (dpf), however, a robust swimming response can be induced as early as 36 hours post-fertilization (hpf) by means of acute nicotine exposure (30–240μM). Here, the NLR was tested as a tool for early detection of locomotor phenotypes in 36, 48 and 72 hpf mutant zebrafish embryos of the non-touch-responsive maco strain; this assay successfully discriminated mutant embryos from their non-mutant siblings. Then, methylmercury (MeHg) was used as a proof-of-concept neurotoxicant to test the effectiveness of the NLR assay as a screening tool in toxicology. The locomotor effects of MeHg were evaluated in 6 dpf wild type eleutheroembryos exposed to waterborne MeHg (0, 0.01, 0.03 and 0.1μM). Afterwards, the NLR assay was tested in 48 hpf embryos subjected to the same MeHg exposure regimes. Embryos exposed to 0.01 and 0.03μM of MeHg exhibited significant increases in locomotion in both scenarios. These findings suggest that similar locomotor phenotypes observed in free swimming fish can be detected as early as 48 hpf, when locomotion is induced with nicotine.     

Expressions of Raldh3 and Raldh4 during zebrafish early development

Retinoic acid (RA) plays crucial roles in vertebrate embryogenesis. Four retinal dehydrogenases (Raldhs) that are responsible for RA synthesis have been characterized in mammals. However, only Raldh2 ortholog is identified in zebrafish. Here, we report the identification of raldh3 and raldh4 genes in zebrafish. The predicted proteins encoded by zebrafish raldh3 and raldh4 exhibit 70.0% and 73.5% amino acid identities with mouse Raldh3 and Raldh4, respectively. RT-PCR analyses reveal that both raldh3 and raldh4 mRNAs are present in early development. However, whole mount in situ hybridization shows that raldh3 mRNA is first expressed in the developing eye region of zebrafish embryos at 10-somite stage. At 24 hpf (hours post fertilization), raldh3 mRNA is expressed in the ventral retina of eye. At 36 hpf, the mRNA is also expressed in otic vesicle in addition to ventral retina, and it maintains its expression pattern till 2 dpf (days post fertilization). At 3 dpf, raldh3 mRNA becomes very weak in ventral retina but is present in otic vesicle at a high level. At 5 dpf and 7 dpf, raldh3 is no longer expressed in eyes but is expressed in otic vesicles at a very low level. raldh4 mRNA is initially detected in developing liver and intestine regions at 2 dpf embryos. Its expression level becomes very high in these two regions of embryos from 3 dpf to 5 dpf. Analysis on the sections of 5 dpf embryos reveals that raldh4 is expressed in the epithelium of intestine. At 7 dpf, raldh4 mRNA is only weakly expressed in the epithelium of intestinal bulb.