| For: | Wu JX, Huang H, Yang L, Zhang XF, Zhang SS, Liu HH, Wang YQ, Yuan L, Cheng XM, Zhuang DG, Zhang HZ. Gastrointestinal toxicity induced by microcystins. World J Clin Cases 2018; 6(10): 344-354 [PMID: 30283797 DOI: 10.12998/wjcc.v6.i10.344] |
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| URL: | https://www.wjgnet.com/2307-8960/full/v6/i10/344.htm |
| Number | Citing Articles |
| 1 |
Punnag Saha, Dipro Bose, Vitalii Stebliankin, Trevor Cickovski, Ratanesh K. Seth, Dwayne E. Porter, Bryan W. Brooks, Kalai Mathee, Giri Narasimhan, Rita Colwell, Geoff I. Scott, Saurabh Chatterjee. Prior exposure to microcystin alters host gut resistome and is associated with dysregulated immune homeostasis in translatable mouse models. Scientific Reports 2022; 12(1) doi: 10.1038/s41598-022-15708-3
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| 2 |
Cong Wen, Shuilin Zheng, Yue Yang, Xiaoyu Li, Jihua Chen, Xiaoyan Wang, Xiangling Feng, Fei Yang. Effects of microcystins-LR on genotoxic responses in human intestinal epithelial cells (NCM460). Journal of Toxicology and Environmental Health, Part A 2019; 82(21) doi: 10.1080/15287394.2019.1698498
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| 3 |
Su Been Park, Sang Yoo Lee, Ji Eun Park, Jae Sung Kim, Hyang Sook Chun. Microcystins and Nodularin in Agricultural Products: Toxicity, Analytical Methods, Contamination Pathway, Occurrence, and Safety Management. Journal of Food Hygiene and Safety 2024; 39(3) doi: 10.13103/JFHS.2024.39.3.191
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| 4 |
Raffaella Tavelli, Martijn Callens, Charlotte Grootaert, Mohamed F. Abdallah, Andreja Rajkovic. Foodborne pathogens in the plastisphere: Can microplastics in the food chain threaten microbial food safety?. Trends in Food Science & Technology 2022; 129 doi: 10.1016/j.tifs.2022.08.021
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| 5 |
Xingde Du, Ruiyang Meng, Houjiang Wei, Zhe Fan, Jiankang Wang, Shumeng Yuan, Kangfeng Ge, Haibin Guo, Feng Wan, Yu Fu, Fufang Wang, Xinghai Chen, Donggang Zhuang, Hongxiang Guo, Huizhen Zhang. Nicotinamide Alleviates Synergistic Impairment of Intestinal Barrier Caused by MC-LR and NaNO2 Coexposure. Journal of Agricultural and Food Chemistry 2024; 72(43) doi: 10.1021/acs.jafc.4c06756
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| 6 |
Jerikias Marumure, Willis Gwenzi, Zakio Makuvara, Tinoziva T. Simbanegavi, Richwell Alufasi, Marvelous Goredema, Claudious Gufe, Rangarirayi Karidzagundi, Piotr Rzymski, Dariusz Halabowski. Global Occurrence of Cyanotoxins in Drinking Water Systems: Recent Advances, Human Health Risks, Mitigation, and Future Directions. Life 2025; 15(5) doi: 10.3390/life15050825
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| 7 |
Anja Bubik, Robert Frangež, Monika C. Žužek, Ion Gutiérrez-Aguirre, Tamara T. Lah, Bojan Sedmak. Cyanobacterial Cyclic Peptides Can Disrupt Cytoskeleton Organization in Human Astrocytes—A Contribution to the Understanding of the Systemic Toxicity of Cyanotoxins. Toxins 2024; 16(9) doi: 10.3390/toxins16090374
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| 8 |
Jessica Lerminiaux, Kerri Finlay, Peter R. Leavitt, Samuel G. Woodman, Matthew J. Bogard. Network-Scale Patterns and Drivers of Microcystins in a Heavily Impacted Watershed. Ecosystems 2026; 29(3) doi: 10.1007/s10021-026-01059-x
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| 9 |
Yu. M. Polyak, M. S. Polyak. The role of cyanotoxins in human and animal pathology (а review). Journal of microbiology, epidemiology and immunobiology 2022; 99(2) doi: 10.36233/0372-9311-230
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| 10 |
Jiancao Gao, Lei Shen, Zhijuan Nie, Haojun Zhu, Liping Cao, Jinliang Du, Fei Dai, Gangchun Xu. Microbial and Planktonic Community Characteristics of Eriocheir sinensis Culture Ponds Experiencing Harmful Algal Blooms. Fishes 2022; 7(4) doi: 10.3390/fishes7040180
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| 11 |
Ying Liu, Yafang Li, Qinmei Tan, Yilin Lv, Yan Tang, Yue Yang, Xueqiong Yao, Fei Yang. Long-Term Exposure to Microcystin-LR Induces Gastric Toxicity by Activating the Mitogen-Activated Protein Kinase Signaling Pathway. Toxins 2023; 15(9) doi: 10.3390/toxins15090574
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| 12 |
Ya Ma, Haohao Liu, Xingde Du, Ziang Shi, Xiaohui Liu, Rui Wang, Shiyu Zhang, Zhihui Tian, Linjia Shi, Hongxiang Guo, Huizhen Zhang. Advances in the toxicology research of microcystins based on Omics approaches. Environment International 2021; 154 doi: 10.1016/j.envint.2021.106661
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| 13 |
Mariam Onize Usman, Godwin Aturagaba, Muhammad Ntale, George William Nyakairu. A review of adsorption techniques for removal of phosphates from wastewater. Water Science and Technology 2022; 86(12) doi: 10.2166/wst.2022.382
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| 14 |
Jinliang Zhang, Yan Guo, Yanan Ding, Bingbing Ma, Zhiqiang Li, Huijun Zhang. Effects of dietary Chinese yam— Rehmannia glutinosa ‘medicine pair’ on growth performance, body size trait, slaughtering performance, antioxidant capacity, and cecum microbiota of broilers. Frontiers in Nutrition 2026; 13 doi: 10.3389/fnut.2026.1784952
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| 15 |
Xiping Yi, Shuaishuai Xu, Feiyu Huang, Cong Wen, Shuilin Zheng, Hai Feng, Jian Guo, Jihua Chen, Xiangling Feng, Fei Yang. Effects of Chronic Exposure to Microcystin-LR on Kidney in Mice. International Journal of Environmental Research and Public Health 2019; 16(24) doi: 10.3390/ijerph16245030
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| 16 |
Xinchen He, Hua Wang, Wei Zhuang, Dongfang Liang, Yanhui Ao. Risk prediction of microcystins based on water quality surrogates: A case study in a eutrophicated urban river network. Environmental Pollution 2021; 275 doi: 10.1016/j.envpol.2021.116651
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| 17 |
Tarana Arman, John Clarke. Microcystin Toxicokinetics, Molecular Toxicology, and Pathophysiology in Preclinical Rodent Models and Humans. Toxins 2021; 13(8) doi: 10.3390/toxins13080537
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| 18 |
Shang-Chun Li, Li-Hong Gu, Yan-Fang Wang, Li-Mei Wang, Liang Chen, John P. Giesy, Xun Tuo, Wen-Li Xu, Qian-Hui Wu, Yi-Qing Liu, Ming-Huo Wu, Yang-Yang Diao, Hao-Hang Zeng, Qing-Bi Zhang. A proteomic study on gastric impairment in rats caused by microcystin-LR. Science of The Total Environment 2024; 917 doi: 10.1016/j.scitotenv.2023.169306
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| 19 |
John S. Reif, Nicole Stockley, Kathi Harvey, Malcolm McFarland, Shirley C. Gordon, Adam M. Schaefer. Symptom frequency and exposure to a cyanobacteria bloom in Florida. Harmful Algae 2023; 129 doi: 10.1016/j.hal.2023.102526
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| 20 |
Chun Pan, Kehan Wang, Runyang Hong, Xinglong Wang, Yao Zhang, Zhencheng Fan, Yujie Shi, Tingting Liu, Hao Chen. Chronic microcystin-leucine-arginine exposure induces osteoporosis by breaking the balance of osteoblasts and osteoclasts. Environmental Research 2024; 263 doi: 10.1016/j.envres.2024.120098
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| 21 |
Maria P. Kalaitzidou, Maria V. Alvanou, Konstantinos V. Papageorgiou, Athanasios Lattos, Marina Sofia, Spyridon K. Kritas, Evanthia Petridou, Ioannis A. Giantsis. Pollution Indicators and HAB-Associated Halophilic Bacteria Alongside Harmful Cyanobacteria in the Largest Mussel Cultivation Area in Greece. International Journal of Environmental Research and Public Health 2022; 19(9) doi: 10.3390/ijerph19095285
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| 22 |
Christy A. McKnight, Lauri J. Diehl, Ingrid L. Bergin. Haschek and Rousseaux' s Handbook of Toxicologic Pathology. 2024; doi: 10.1016/B978-0-12-821046-8.00001-3
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| 23 |
Shuaishuai Xu, Xiping Yi, Wenya Liu, Chengcheng Zhang, Isaac Yaw Massey, Fei Yang, Li Tian. A Review of Nephrotoxicity of Microcystins. Toxins 2020; 12(11) doi: 10.3390/toxins12110693
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| 24 |
Maria P. Kalaitzidou, Christina I. Nannou, Dimitra A. Lambropoulou, Konstantinos V. Papageorgiou, Alexandros M. Theodoridis, Vangelis K. Economou, Ioannis A. Giantsis, Panagiotis G. Angelidis, Spyridon K. Kritas, Evanthia J. Petridou. First report of detection of microcystins in farmed mediterranean mussels Mytilus galloprovincialis in Thermaikos gulf in Greece. Journal of Biological Research-Thessaloniki 2021; 28(1) doi: 10.1186/s40709-021-00139-4
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| 25 |
Yoshihito Koto, Hideaki Kawahara, Koichi Kurata, Keisuke Yoshikiyo, Ayumi Hashiguchi, Kunihiro Okano, Norio Sugiura, Kazuya Shimizu, Hidehisa Shimizu. Microcystin-LR incorporated into colonic cells through probenecid-sensitive transporters leads to upregulated MCP-1 expression induced by JNK activation. Toxicology Reports 2022; 9 doi: 10.1016/j.toxrep.2022.04.019
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| 26 |
Linghui Cao, Feiyu Huang, Isaac Yaw Massey, Cong Wen, Shuilin Zheng, Shuaishuai Xu, Fei Yang. Effects of Microcystin-LR on the Microstructure and Inflammation-Related Factors of Jejunum in Mice. Toxins 2019; 11(9) doi: 10.3390/toxins11090482
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| 27 |
Jinjin Li, Yuanyuan Zhang, Jiajia Ni, Wenxuan Hou, Lei Huang, Hanping Pan, Chenxu Wang, Kaixin Wang, Shaoyuan Zuo, Jiahao Dong, Mingyu Zhang. Effects of different doses of microcystin-LR exposure on gut development and the microbiota of Xenopus laevis tadpoles. BMC Microbiology 2025; 25(1) doi: 10.1186/s12866-025-04085-2
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| 28 |
Ya Ma, Haohao Liu, Xingde Du, Pavankumar Petlulu, Xinghai Chen, Rui Wang, Shiyu Zhang, Zhihui Tian, Linjia Shi, Hongxiang Guo, Huizhen Zhang. IRE1 and CaMKKβ pathways to reveal the mechanism involved in microcystin-LR-induced autophagy in mouse ovarian cells. Food and Chemical Toxicology 2021; 147 doi: 10.1016/j.fct.2020.111911
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| 29 |
Jiancao Gao, Nailin Shao, Yi Sun, Zhijuan Nie, Xiwei Yang, Fei Dai, Gangchun Xu, Pao Xu. Impact of Effective Microorganisms and Chlorella vulgaris on Eriocheir sinensis and Water Microbiota in Ponds Experiencing Cyanobacterial Blooms. Sustainability 2023; 15(9) doi: 10.3390/su15097362
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| 30 |
Yeonggwang Hwang, Hyoung-Chun Kim, Eun-Joo Shin. Repeated exposure to microcystin-leucine-arginine potentiates excitotoxicity induced by a low dose of kainate. Toxicology 2021; 460 doi: 10.1016/j.tox.2021.152887
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| 31 |
Yuanyuan Zhang, Di Wu, Ze Fan, Jinnan Li, Lei Gao, Yu’e Wang, Liansheng Wang. Microcystin-LR induces ferroptosis in intestine of common carp (Cyprinus carpio). Ecotoxicology and Environmental Safety 2021; 223 doi: 10.1016/j.ecoenv.2021.112610
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| 32 |
Shuang Zhang, Yu Wang, Fang Lu, Shadi A. D. Mohammed, Hanxing Liu, Song Ding, Shu-min Liu. Mechanism of Action of Shenerjiangzhi Formulation on Hyperlipidemia Induced by Consumption of a High-Fat Diet in Rats Using Network Pharmacology and Analyses of the Gut Microbiota. Frontiers in Pharmacology 2022; 13 doi: 10.3389/fphar.2022.745074
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