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Effects of polystyrene microplastics on kidney of diabetic mice |
LI Huan, LIU Su, ZHANG Jing-li, CHEN Jian-qiu |
Department of Environmental Science, School of Engineering, China Pharmaceutical University, Nanjing 211198, China |
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Abstract Diabetic mice were used as model organisms to investigate the toxicity of 100nm and 5μm polystyrene microplastics (PSMPs) (200μg/L) after exposure to drinking water for 28days. The results of the study indicated that diabetic mice were more sensitive to the exposure of PSMPs. Exposure to 100nm and 5μm PSMPs led to obvious pathological damage such as inflammatory cell infiltration and congestion in the kidneys of diabetic mice, and 100nm PSMP caused more severe pathological damage to the kidney. In addition, exposure to 100nm PSMPs significantly aggravated the expression levels of renal inflammatory factors (TNF-α and IL-6), superoxide dismutase (SOD) and serum creatinine in diabetic mice, and caused renal metabolic disorders. Compared with 5μm PSMPs, the small particle size toxicity exhibited by microplastics may be related to the easier accumulation of nano-level PSMPs in the kidneys through the intestinal barrier. Moreover, the impaired glycolysis and reduced energy metabolism levels caused by disorders of renal metabolic pathways also increased the burden of PSMPs on kidneys of diabetic mice.
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Received: 18 August 2021
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[1] |
Mattsson K, Hansson L A, Cedervall T. Nano-plastics in the aquatic environment[J]. Environmental Science Processes& Impacts, 2015, 17(10):1712-1271.
|
[2] |
韩丽花,李巧玲,徐笠,等.大辽河沉积物中微塑料的污染特征[J].中国环境科学, 2020,40(4):1649-1658. Han L H, Li Q L, Xu L, et al. The pollution characteristics of microplastics in Daliao River sediments[J]. Chinese Environmental Science, 2020,40(9):4058-4064.
|
[3] |
Qiao J, Zhu Y, Jia X, et al. Distributions of arsenic and other heavy metals, and health risk assessments for groundwater in the Guanzhong plain region of China[J]. Environmental Research, 2019,181:108957.
|
[4] |
Lei L, Wu S, Lu S, et al. Microplastic particles cause intestinal damage and other adverse effects in zebrafish Danio rerio and nematode Caenorhabditis elegans[J]. Science of The Total Environment, 2018,619-620:1-8.
|
[5] |
Lu L, Wan Z Q, Luo T, et al. Polystyrene microplastics induce gut microbiota dysbiosis and hepatic lipid metabolism disorder in mice[J]. Science of The Total Environment, 2018,631-632:449-458.
|
[6] |
Deng Y, Zhang Y, Lemos B, et al. Tissue accumulation of microplastics in mice and biomarker responses suggest widespread health risks of exposure[J]. Scientific Reports, 2017,7(1):46687.
|
[7] |
Xi Z, Fang L, Xu J, et al. Exposure to Aroclor 1254persistently suppresses the functions of pancreatic β-cells and deteriorates glucose homeostasis in male mice[J]. Environmental Pollution, 2019,249:822-830.
|
[8] |
Deng T, Zhang Y, Wu Y, et al. Dibutyl phthalate exposure aggravates type 2diabetes by disrupting the insulin-mediated PI3K/AKT signaling pathway[J]. Toxicology Letters, 2018,290:1-9.
|
[9] |
Bodin J, Kocbach B A, Wendt A, et al. Exposure to bisphenol A, but not phthalates, increases spontaneous diabetes type 1development in NOD mice[J]. Toxicology Reports, 2015,2:99-110.
|
[10] |
郭凯锋,陈海冰,贾伟平.糖尿病肾脏疾病的流行病学进展[J].医学研究杂志, 2015,44(3):162-166. Guo K F, Chen H B, Jia W P. Epidemiological progress of diabetic kidney disease[J]. Journal of Medical Research, 2015,44(3):162-166.
|
[11] |
周士飞,林川,李多.芪贞银翘汤对2型糖尿病肾脏疾病患者肾脏功能的影响[J].中药药理与临床, 2020,36(5):194-198. Zhou S F, Lin C, Li D. Effect of Qizhen Yinqiao decoction on the renal function in patients with diabetic kidney disease (DKD)[J]. Pharmacology and Clinics of Chinese Materia Medica, 2020,36(5):194-198.
|
[12] |
Olmos D, Martín E V, González-Benito J. New molecular-scale information on polystyrene dynamics in PS and PS-BaTiO3 composites from FTIR spectroscopy[J]. Physical Chemistry Chemical Physic, 2014,16(44):24339-24349.
|
[13] |
Jin Y, Lu L, Tu W, et al. Impacts of polystyrene microplastic on the gut barrier, microbiota and metabolism of mice[J]. Science of The Total Environment, 2019,649(1):308-317.
|
[14] |
Zhao H H, Cheng N, Zhou W Q, et al. Honey polyphenols ameliorate DSS-induced ulcerative colitis via modulating gut microbiota in rats[J]. Molecular Nutrition& Food Research, 2019,63(23):22.930-941.
|
[15] |
Deng Y, Zhang Y, Lemos B, et al. Tissue accumulation of microplastics in mice and biomarker responses suggest widespread health risks of exposure[J]. Scientific Reports, 2017,7(1):46687.
|
[16] |
王英雪,徐熳,王立新,等.微塑料在哺乳动物的暴露途径,毒性效应和毒性机制浅述[J].环境化学, 2021,40(1):41-54. Wang Y X, Xu M, Wang L X, et al. The exposure routes, organ damage and related mechanism of the microplastics on the mammal[J]. Environmental Chemistry, 2021,40(1):41-54.
|
[17] |
Deng Y F, Zhang Y, Qiao R X, et al. Evidence that microplastics aggravate the toxicity of organophosphorus flame retardants in mice (Mus musculus)[J]. Journal of Hazardous Materials, 2018,357:348-354.
|
[18] |
李欢,张静丽,张诗雨,等.四环素和砷对斑马鱼的联合毒性及机制[J].中国环境科学, 2021,41(7):3371-3380. Li H, Zhang J L, Zhang S Y, et al. Combined toxicity and underlying mechanism of tetracycline and arsenic on zebrafish [J]. Chinese Environmental Science, 2021,41(7):3371-3380.
|
[19] |
Li H, Tian S, Chen T, et al. Newly diagnosed diabetes is associated with a higher risk of mortality than known diabetes in hospitalized patients with COVID[J]. Diabetes Obesity and Metabolism, 2020, 22(10):1897-1906.
|
[20] |
Jeong C B, Won E J, Kang H M, et al. Microplastic size-dependent toxicity, oxidative stress induction, and p-jnk and p-p38activation in the monogonont rotifer (Brachionus Koreanus)[J]. Environmental Science& Technology, 2016,50(16):8849.
|
[21] |
Lu Y, Yan Z, Deng Y, et al. Uptake and accumulation of polystyrene microplastics in zebrafish (Danio rerio) and toxic effects in liver[J]. Environmental Science& Technology, 2016,50(7):4054-4060.
|
[22] |
Jin Y X, Xia J Z, Pan Z H, et al. Polystyrene microplastics induce microbiota dysbiosis and inflammation in the gut of adult zebrafish[J]. Environmental Pollution, 2018,235(4):322-329.
|
[23] |
Xu X, Wang G, Chen N, et al. Long-term exposure to air pollution and increased risk of membranous nephropathy in China[J]. Journal of the American Society of Nephrology, 2016:3739-3746.
|
[24] |
Wang S, Fang F, Jin W B, et al. Investigation into the association between NLRP3gene polymorphisms and susceptibility to type 2diabetes mellitus[J]. Genetics& Molecular Research Gmr, 2015, 14(4):17447.
|
[25] |
饶毅峰,杨林,杜京涛,等.糖尿病肾病患者尿白蛋白排泄率与肾功能、炎症反应、氧化应激反应的相关性[J].海南医学院学报, 2017,23(6):769-772. Rao Y F, Yang L, Du J T, et al. Correlation of urinary albumin excretion rate with renal function, inflammatory response and oxidative stress response in patients with diabetic nephropathy[J]. Journal of Hainan Medical University, 2017,23(6):769-772.
|
[26] |
Jin T, Nordberg G, Sehlin J, et al. The susceptibility to nephrotoxicity of streptozotocin-induced diabetic rats subchronically exposed to cadmium chloride in drinking water[J]. Toxicology, 1999,142(1):69-75.
|
[27] |
Wei H, Hu Q, Wu J, et al. Molecular mechanism of the increased tissue uptake of trivalent inorganic arsenic in mice with type 1diabetes mellitus[J]. Biochemical& Biophysical Research Communications, 2018,504(2):393-399.
|
[28] |
段鑫越,关文玲,程昊东,等.胚胎绒毛膜对微塑料颗粒与镉联合作用的影响[J].中国环境科学, 2021,41(3):1422-1428. Duan X Y, Guan W L, Cheng H D, et al. Effect of chorionic villi on the combination action of microplastic particles and cadmium [J]. Chinese Environmental Science, 2021,41(3):1422-1428.
|
[29] |
Jin Y, Lu L, Tu W, et al. Impacts of polystyrene microplastic on the gut barrier, microbiota and metabolism of mice[J]. Science of The Total Environment, 2019,649:308-317.
|
[30] |
Abudawood M, Tabassum H, Ali M N, et al. Interrelationship between oxidative stress, DNA damage and cancer risk in Diabetes (Type 2) in Riyadh, KSA[J]. Saudi Journal of Biological Sciences, 2019,27(1):177-183.
|
[31] |
Jiang H, Shao X, Jia S, et al. The mitochondria-targeted metabolic tubular injury in diabetic kidney disease[J]. Cellular Physiology& Biochemistry International Journal of Experimental Cellular Physiology Biochemistry& Pharmacology, 2019,52(2):156-171.
|
[32] |
Ghosh S, Chowdhury S, Sarkar P, et al. Ameliorative role of ferulic acid against diabetes associated oxidative stress induced spleen damage[J]. Food& Chemical Toxicology, 2018,118:272-286.
|
|
|
|