• Title/Summary/Keyword: zebrafish toxicity

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Isoprocarb induces acute toxicity in developing zebrafish embryos through vascular malformation

  • Park, Hahyun;Song, Gwonhwa;Lim, Whasun
    • Journal of Animal Reproduction and Biotechnology
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    • v.36 no.1
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    • pp.17-24
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    • 2021
  • In this study, the potential toxicity of isoprocarb was demonstrated using zebrafish embryos. We treated isoprocarb (0, 29, and 58 mg/L) to the zebrafish embryos for 72 h then, we estimated morphological changes and apoptotic cell numbers. The increasing extent of apoptosis from the anterior to posterior region of developing zebrafish larvae was correlated with toxicity in the overall development process, including growth and normal organ formation. The appearance of abnormalities in the isoprocarb-treated groups in comparison to normal developing zebrafish larvae was verified using quantitative image analysis based on ImageJ software program. The vascular system comprising a complex interconnection of blood vessels was visualized in vessel-fluorescent transgenic zebrafish (fli1:eGFP). The main vasculature was malformed on isoprocarb treatment, and this was also related to cardiac defects. Taken together, normal embryonic development in zebrafish was interrupted owing to the acute toxicity of isoprocarb.

Norflurazon causes developmental defects including cardiovascular abnormalities in early-stage zebrafish (Danio rerio)

  • An, Garam;Park, Hahyun;Hong, Taeyeon;Song, Gwonhwa;Lim, Whasun
    • Journal of Animal Reproduction and Biotechnology
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    • v.37 no.3
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    • pp.176-182
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    • 2022
  • Norflurazon is widely used on agricultural lands and has a high potential to pollute water sources. However, its effects on fish have not been fully elucidated. The purpose of our study was to determine whether norflurazon adversely affects the developmental stage of zebrafish, which are frequently used as a model system to evaluate the environmental impact of pollutants. Norflurazon interfered with the hatching of zebrafish embryos and induced several sublethal deformities including body length reduction, increased yolk sac volume, and enlargement of the pericardial region. We further examined the cardiotoxicity of norflurazon in the flk1:eGFP transgenic zebrafish line. The vascular network, mainly in the brain region, was significantly disrupted in norflurazon-exposed zebrafish. In addition, due to the failure of cardiac looping, norflurazon-exposed zebrafish had an abnormal cardiac structure. These developmental abnormalities were related to the apoptotic process triggered by norflurazon. Overall, the present study demonstrated the non-target toxicity of norflurazon by analyzing the hazardous effects of norflurazon on developing zebrafish.

Developmental toxicity and anti-inflammatory effect of the soft coral Dendronephthya gigantea collected from Jeju Island in zebrafish model

  • Lee, Seung-Hong
    • Fisheries and Aquatic Sciences
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    • v.20 no.12
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    • pp.32.1-32.7
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    • 2017
  • Recent in vitro studies have demonstrated that extract of soft coral Dendronephthya gigantea (SCDE) had strong anti-inflammatory activities. However, the direct effects of SCDE on anti-inflammatory activities in vivo model remained to be determined. Therefore, the present study was designed to assess in vivo anti-inflammatory effect of SCDE using lipopolysaccharide (LPS)-stimulated zebrafish model. We also investigated whether SCDE has toxic effects in zebrafish model. The survival, heart beat rate, and developmental abnormalities were no significant change in the zebrafish embryos exposed to at a concentration below $100{\mu}g/ml$ of SCDE. However, lethal toxicity was caused after exposure to 200 and $400{\mu}g/ml$ of SCDE. Treating zebrafish model with LPS treatment significantly increased the reactive oxygen species (ROS) and nitric oxide (NO) generation. However, SCDE inhibited this LPS-stimulated ROS and NO generation in a dose-dependent manner. These results show that SCDE alleviated inflammation by inhibiting the ROS and NO generation induced by LPS treatment. In addition, SCDE has a protective effect against the cell damage induced by LPS exposure in zebrafish embryos. This outcome could explain the profound anti-inflammatory effect of SCDE both in vitro as well as in vivo, suggesting that the SCDE might be a strong anti-inflammatory agent.

Acute Toxicity Assessment in Zebrafish Danio rerio of Arsenic-rich Extracts from Three Species of Seaweeds (제브라피쉬(Danio rerio)를 이용한 비소 고함류 3종 해조류 추출물의 급성 독성평가)

  • Yang, Hye-Won;Kim, Eun-A;Kim, Seo-Young;Jeon, You-Jin
    • Korean Journal of Fisheries and Aquatic Sciences
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    • v.51 no.1
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    • pp.31-41
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    • 2018
  • Seaweeds are composed of a variety of bioactive substances, including polysaccharides, pigments, minerals, peptides, and polyphenols. Among these substances, the arsenic content of seaweeds has been a significant cause for concern. The present study evaluated the toxicity of arsenic from three species of seaweed using a zebrafish Danio rerio model. The arsenic-rich extracts were obtained from Ecklonia cava (ECAE), Undaria pinnatifida (UPAE) and Hizikia fusiformis (HFAE) using a solvent of 50% methanol and 1% $HNO_3$. We investigated the toxicity of the arsenic-rich extracts in zebrafish embryos through survival rate, heart rate, yolk sac edema size, cell death, reactive oxygen species (ROS) production and real-time polymerase chain reaction (PCR). The hepatotoxicity of arsenic-rich extracts was assessed in the liver of adult zebrafish through real-time PCR and histopathology. The survival rates of embryos and adult zebrafish showed no significant changes at any concentration. At 100 ppm, embryos did not exhibit significant differences in heart rate, yolk sac edema size, cell death or ROS production. In addition, apoptosis-related genes in larvae and liver tissue were unaffected by treatment with arsenic-rich extracts. These data will help clarify that developmental changes, hepatic oxidative stress, and apoptosis are not associated with toxicity from arsenic-rich seaweed extracts in a zebrafish model.

Bio-toxicity of Titanium Dioxide Nano Particles (P-25) in Zebrafish Development Stage (Zebrafish 발생기에서 $TiO_2(P-25)$ 나노 입자의 생물 독성)

  • Yeo, Min-Kyeong;Jo, Yoon-Hee
    • Environmental Analysis Health and Toxicology
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    • v.22 no.3
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    • pp.189-196
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    • 2007
  • [ $TiO_2$ ] is widely used because it is non-toxic. Recently, however, nanometer size $TiO_2$ particles (P-25) have been produced and used to increase the photo catalysis efficiency. Nanometer-sized $TiO_2$ is efficient, but due to its small size ($20{\sim}30\;nm$), it can flow into ecosystems and into cells. Thus, it may affect human health. Additionally, $TiO_2$ can produce a second contaminant, OH-radical, which is a health risk for all living organisms during photo degradation reaction. Hence, when nanometer-sized $TiO_2$ flows into natural streams and attaches to living organisms, it will create health risks. We investigated the biological toxicity of this condition in zebrafish embryos. We observed abnormal morphology, hatching rate, and measured the catalase activity to determine anti-oxidation at 100 post fertilization hours. Zebrafish were somewhat affected by $TiO_2$ nanometer sized particles under UV-A (a condition similar to sunlight). Powdered $TiO_2$ is toxic to the zebrafish fly. Even without light, $TiO_2$ particles attached to embryos and flies, having an effect on both.

Mecoprop-p interrupts the development of zebrafish via apoptosis and vascular damage

  • Park, Junho;An, Garam;Park, Hahyun;Hong, Taeyeon;Song, Gwonhwa;Lim, Whasun
    • Journal of Animal Reproduction and Biotechnology
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    • v.37 no.3
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    • pp.162-168
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    • 2022
  • Mecoprop-p, a chlorophenoxy herbicide, has been widely used since the 1980s. Due to its high water solubility, it could be detected in the aquatic environment, as it has already been detected in the surface water or groundwater in several countries. The toxicity of other chlorophenoxy herbicides has been reported; however, there are few studies on the toxicity of mecoprop-p, one of the chlorophenoxy herbicides, on aquatic organisms. Here, we investigated the toxic effects of mecoprop-p using zebrafish. After mecoprop-p exposure, we observed that the zebrafish larvae eyes did not form normally, heart edema was generated, and the body length was shortened. The number of cells undergoing apoptosis also increased in the anterior part including head, heart, and yolk sac of the mecoprop-p-treated zebrafish compared to the untreated controls. Moreover, cardiovascular structures, including the heart and aortic arches, were also malformed after exposure to mecoprop-p. Therefore, our results suggest that mecoprop-p could cause abnormal development in zebrafish larvae and there is also a high possibility that mecoprop-p would be toxic to other aquatic organisms.

Electroencephalography (EEG) based Toxicity Test of Algae Organic Matter on Zebrafish (조류기인 유기물질의 제브라피쉬에 대한 뇌파측정기반 독성평가)

  • Oh Sehyun;Jang hyeongjun;Cho Yunchul
    • Journal of Korean Society on Water Environment
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    • v.39 no.3
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    • pp.223-230
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    • 2023
  • Harmful algae blooms have become a serious environmental problem in major river basins in Korea. They are known to produce various algal organic matters (AOMs) including intracellular organic matters (IOMs) and extracellular organic matters (EOMs). Generally AOMs cannot be easily removed by coagulation/flocculation process in conventional drinking water plants. AOMs produced by blue-green algae also include various toxins such as Microcystins, Anatoxin-a, and Saxitoxin known to have harmful effects on living organisms in aquatic environment. In this study, toxic effects of EOMs produced by three different algae species (Microcystis sp., Anabaena sp., and Oscillatoria sp.) on zebrafish were investigated using electroencephalography (EEG) recording method, a technology for recording brain activity. Electroencephalographic changes in zebrafish revealed that a low EOM had a negative effect on zebrafish compared to both Anabaena sp. and Oscillatoria sp. at 30 ppm EOM exposures. This result might be due to Microcystins present in EOMs produced by Microcystis sp. As a result of power spectrum density anallysis, exposure to EOMs produced by Microcystis sp. caused a state of vigilance in zebrafish. This EEG based toxicity test can be used to examine effects of harmful materials at low levels on living organisms in an aquatic system.

A study on the inflammatory response induced by LPS of the Arthrospira platensis ethanol extract

  • Zhang, Shi Jie;Yang, Jae-Chan;Kim, Bo-Ae
    • Journal of the Korean Applied Science and Technology
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    • v.36 no.3
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    • pp.966-974
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    • 2019
  • Arthrospira platensis has been reported to contain a variety of substances such as phycocyanin, ${\beta}$-carotene, vitamin E and other carotenoids. In this study, zebrafish were treated with indoor cultivation spirulina ethanol extracts(ICAE) to determine toxicity(coagulation rate, hatching rate, heart rate). We used the DCFH-DA staining method to detect the effect of reactive oxygen species(ROS) generation on lipopolysaccharide(LPS)-induced zebrafish embryos ROS various concentrations(0.01, 0.05, 0.1, 0.5mg/ml) of ICAE. Cell toxicity was measured by WST-1 assay on RAW 264.7 macrophage cell line. Also, measured the inhibitory effect of nitric oxide(NO) and prostaglandin $E_2$ ($PGE_2$) production in RAW264.7 macrophages induced by LPS at various concentrations of ICAE. The results of embryo coagulation rate, hatching rate, heart rate of zebrafish at various(0.01, 0.05, 0.1mg/ml) of ICAE was no toxicity. The ICAE treated group had an inhibitory effect on NO and $PGE_2$ production compared and decreased with concentration. The results of this study ethanol extract of Arthrospira platensis has an anti-inflammatory effect and suggest that is worthy of use cosmetics for skin protection.

Embryonic Zebrafish Model - A Well-Established Method for Rapidly Assessing the Toxicity of Homeopathic Drugs - Toxicity Evaluation of Homeopathic Drugs Using Zebrafish Embryo Model -

  • Gupta, Himanshu R;Patil, Yogesh;Singh, Dipty;Thakur, Mansee
    • Journal of Pharmacopuncture
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    • v.19 no.4
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    • pp.319-328
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    • 2016
  • Objectives: Advancements in nanotechnology have led to nanoparticle (NP) use in various fields of medicine. Although the potential of NPs is promising, the lack of documented evidence on the toxicological effects of NPs is concerning. A few studies have documented that homeopathy uses NPs. Unfortunately, very few sound scientific studies have explored the toxic effects of homeopathic drugs. Citing this lack of high-quality scientific evidence, regulatory agencies have been reluctant to endorse homeopathic treatment as an alternative or adjunct treatment. This study aimed to enhance our insight into the impact of commercially-available homeopathic drugs, to study the presence of NPs in those drugs and any deleterious effects they might have, and to determine the distribution pattern of NPs in zebrafish embryos (Danio rerio). Methods: Homeopathic dilutions were studied using high-resolution transmission electron microscopy with selected area electron diffraction (SAED). For the toxicity assessment on Zebrafish, embryos were exposed to a test solution from 4 - 6 hours post-fertilization, and embryos/larvae were assessed up to 5 days post-fertilization (dpf ) for viability and morphology. Toxicity was recorded in terms of mortality, hatching delay, phenotypic defects and metal accumulation. Around 5 dpf was found to be the optimum developmental stage for evaluation. Results: The present study aimed to conclusively prove the presence of NPs in all high dilutions of homeopathic drugs. Embryonic zebrafish were exposed to three homeopathic drugs with two potencies (30CH, 200CH) during early embryogenesis. The resulting morphological and cellular responses were observed. Exposure to these potencies produced no visibly significant malformations, pericardial edema, and mortality and no necrotic and apoptotic cellular death. Conclusion: Our findings clearly demonstrate that no toxic effects were observed for these three homeopathic drugs at the potencies and exposure times used in this study. The embryonic zebrafish model is recommended as a well-established method for rapidly assessing the toxicity of homeopathic drugs.

Evaluation of Whitening Efficacy of Natural Product Residue Using Zebrafish Embryos (제브라피쉬 배아를 이용한 천연부산물의 미백 효능평가)

  • Bo-Ae Kim
    • Journal of the Korean Applied Science and Technology
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    • v.40 no.3
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    • pp.570-578
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    • 2023
  • Experiments on zebrafish embryo toxicity and whitening efficacy, which is an alternative experimental animal model, were conducted using coffee by-products. As a result of the embryo toxicity test treated with the coffee residue extract, the coagulation rate was 3, 3, and 5% at 24, 48, and 72 hpf and concentration of 125 ppm, respectively. The hatching rate of embryos was 73% at the highest concentration of 125 ppm. In the heart beat rate experiment of zebrafish larva, the heart beat rate after 72 hpf was confirmed to be 153 times/60 s' at a concentration of 125 ppm. The negative control group showed no significant change in heart rate compared to the control group at 148 times/60s', and showed low toxicity. In addition, as a result of evaluating the whitening effect in zebrafish, melanin formation was inhibited as the concentration of the coffee residue extract increased. The results of this study suggest the possibility that naturally derived by-product materials can be used as raw materials for cosmetics, and are expected to be used in the cosmetics industry as an example of research that increases the added value of natural product residue.