壬基酚异构体的组成、环境行为及毒性效应研究进展
Composition, Isomer-specific Occurrences, Environmental Fate and Toxicity of Nonylphenols: A Review
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摘要: 壬基酚(NPs)是一类典型的环境内分泌干扰物,具有较强的亲脂性,在土壤及沉积物等环境介质中难降解,并在生物体内具有蓄积性和高毒性,被列入我国“十四五”新污染物管控名单。NPs理论上存在211种同分异构体,而工业品NPs则是由50~80种同分异构体组成的混合物。已有充分证据显示NPs的环境行为及毒性效应呈异构体特异性差异,因此,必须从异构体分子水平上厘清NPs的环境行为、人体暴露及潜在毒性效应等,从而更精准地评估及预测其生态与健康风险。本文归纳了近些年国内外学者针对NPs同分异构体理化性质、工业品组成特征、环境行为及潜在的毒性效应等方面的研究进展,并对当前研究的瓶颈进行了梳理,展望了今后的主要研究方向。Abstract: Nonylphenols (NPs) is a toxic xenobiotic compound, which is identified as an environmental endocrine disruptor. Due to its lipophilicity, NPs can easily sorb onto soils and sediments, and persist in the environment for long time. NPs accumulate in various organs and pose toxic effects on organisms. It has been listed as new pollutant under “China’s 14th Five-Year Plan”, with strict usage prohibition. Theoretically, technical nonylphenol consists of a mixture of 211 possible constitutional isomers with a varied and undefined degree of branching in the alkyl group, among them about 50~80 individual isomers have been identified in technical mixtures. There is sufficient scientific evidence that the toxicological effects (estrogenic activity), as well as the environmental behavior (degradation and accumulation) of isomers can vary. Therefore, it is necessary to consider the nonylphenol problem from an isomer-specific viewpoint in environmental, exposure, and health studies, which can serve as a fundament for its accurate assessment and prediction of potential health risks. In the present review, the recent advancements and future trends on the isomer composition, isomer-specific occurrences, environmental fate, and toxicity of nonylphenols were summarized. The perspectives and challenges are identified for future studies.
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Key words:
- nonylphenol /
- individual isomer /
- environmental behavior /
- isomer composition /
- estrogenic activity
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李明姝, 刘征涛, 周俊丽. 内分泌干扰物壬基酚在环境中迁移转化的研究进展[J]. 环境化学, 2013, 32(7): 1212-1217 Li M S, Liu Z T, Zhou J L. Advance in research on the transport and transformation of nonylphenol [J]. Environmental Chemistry, 2013, 32(7): 1212-1217 (in Chinese)
Guruge K S, Horii Y, Yamashita N. Profiles of nonylphenol isomers in surface waters from Sri Lanka [J]. Marine Pollution Bulletin, 2011, 62(4): 870-873 Telscher M J, Schuller U, Schmidt B, et al. Occurrence of a nitro metabolite of a defined nonylphenol isomer in soil/sewage sludge mixtures [J]. Environmental Science & Technology, 2005, 39(20): 7896-7900 史雨薇, 蔡灵, 潘辰苑, 等. 海洋环境中新型雌激素污染特征研究进展[J]. 高校化学工程学报, 2019, 33(6): 1285-1302 Shi Y W, Cai L, Pan C Y, et al. Research progress on emerging estrogenic pollutants in marine environment [J]. Journal of Chemical Engineering of Chinese Universities, 2019, 33(6): 1285-1302 (in Chinese)
Geens T, Neels H, Covaci A. Distribution of bisphenol-A, triclosan and n-nonylphenol in human adipose tissue, liver and brain [J]. Chemosphere, 2012, 87(7): 796-802 Chen M, Fan Z L, Zhao F R, et al. Occurrence and maternal transfer of chlorinated bisphenol A and nonylphenol in pregnant women and their matching embryos [J]. Environmental Science & Technology, 2016, 50(2): 970-977 Ademollo N, Ferrara F, Delise M, et al. Nonylphenol and octylphenol in human breast milk [J]. Environment International, 2008, 34(7): 984-987 Ringbeck B, Bury D, Hayen H, et al. Determination of specific urinary nonylphenol metabolites by online-SPE-LC-MS/MS as novel human exposure biomarkers [J]. Journal of Chromatography B, Analytical Technologies in the Biomedical and Life Sciences, 2021, 1177: 122794 Li X, Ying G G, Zhao J L, et al. 4-nonylphenol, bisphenol-A and triclosan levels in human urine of children and students in China, and the effects of drinking these bottled materials on the levels [J]. Environment International, 2013, 52: 81-86 Ieda T, Horii Y, Petrick G, et al. Analysis of nonylphenol isomers in a technical mixture and in water by comprehensive two-dimensional gas chromatography-mass spectrometry [J]. Environmental Science & Technology, 2005, 39(18): 7202-7207 Kim Y S, Katase T, Horii Y, et al. Estrogen equivalent concentration of individual isomer-specific 4-nonylphenol in Ariake Sea water, Japan [J]. Marine Pollution Bulletin, 2005, 51(8-12): 850-856 Chen M L, Lee H Y, Chuang H Y, et al. Association between nonylphenol exposure and development of secondary sexual characteristics [J]. Chemosphere, 2009, 76(7): 927-931 Lu Z J, Gan J. Analysis, toxicity, occurrence and biodegradation of nonylphenol isomers: A review [J]. Environment International, 2014, 73: 334-345 Acir I H, Guenther K. Endocrine-disrupting metabolites of alkylphenol ethoxylates—A critical review of analytical methods, environmental occurrences, toxicity, and regulation [J]. The Science of the Total Environment, 2018, 635: 1530-1546 Guenther K, Kleist E, Thiele B. Estrogen-active nonylphenols from an isomer-specific viewpoint: A systematic numbering system and future trends [J]. Analytical and Bioanalytical Chemistry, 2006, 384(2): 542-546 Chung S W C. The development of isomer-specific analysis of branched 4-nonylphenol in food for dietary exposure—A critical review of analytical methods and occurrence in foodstuffs [J]. Food Additives & Contaminants Part A, Chemistry, Analysis, Control, Exposure & Risk Assessment, 2021, 38(5): 842-855 王立恒. 壬基酚生产与市场分析[J]. 化学工业, 2014, 32(6): 36-39 Wang L H. Nonylphenol production and market [J]. Chemical Industry, 2014, 32(6): 36-39 (in Chinese)
Shan J, Wang T, Li C L, et al. Bioaccumulation and bound-residue formation of a branched 4-nonylphenol isomer in the geophagous earthworm Metaphire guillelmi in a rice paddy soil [J]. Environmental Science & Technology, 2010, 44(12): 4558-4563 Sun J Q, Yang X D, Shen H, et al. Uptake and metabolism of nonylphenol in plants: Isomer selectivity involved with direct conjugation [J]. Environmental Pollution, 2021, 270: 116064 虞斌, 边学森, 季荣. 4种具有α-季碳结构的对位壬基酚异构体的合成和表征[J]. 生态毒理学报, 2008, 3(1): 98-104 Yu B, Bian X S, Ji R. Synthesis and characterization of four para-nonylphenol isomers containing a quaternary α-carbon [J]. Asian Journal of Ecotoxicology, 2008, 3(1): 98-104 (in Chinese)
王世玉, 刘菲, 刘玉龙, 等. 气相色谱-质谱法检测地下水中12种对壬基酚同分异构体[J]. 分析化学, 2013, 41(11): 1699-1703 Wang S Y, Liu F, Liu Y L, et al. Determination of 12 isomers of p-nonylphenol in groundwater by gas chromatography-mass spectrometry [J]. Chinese Journal of Analytical Chemistry, 2013, 41(11): 1699-1703 (in Chinese)
Eganhouse R P, Pontolillo J, Gaines R B, et al. Isomer-specific determination of 4-nonylphenols using comprehensive two-dimensional gas chromatography/time-of-flight mass spectrometry [J]. Environmental Science & Technology, 2009, 43(24): 9306-9313 Wheeler T F, Heim J R, LaTorre M R, et al. Mass spectral characterization of p-nonylphenol isomers using high-resolution capillary GC-MS [J]. Journal of Chromatographic Science, 1997, 35(1): 19-30 Moeder M, Martin C, Schlosser D, et al. Separation of technical 4-nonylphenols and their biodegradation products by comprehensive two-dimensional gas chromatography coupled to time-of-flight mass spectrometry [J]. Journal of Chromatography A, 2006, 1107(1-2): 233-239 Zhang C X, Eganhouse R P, Pontolillo J, et al. Determination of nonylphenol isomers in landfill leachate and municipal wastewater using steam distillation extraction coupled with comprehensive two-dimensional gas chromatography/time-of-flight mass spectrometry [J]. Journal of Chromatography A, 2012, 1230: 110-116 Katase T, Okuda K, Kim Y S, et al. Estrogen equivalent concentration of 13 branched para-nonylphenols in three technical mixtures by isomer-specific determination using their synthetic standards in SIM mode with GC-MS and two new diasteromeric isomers [J]. Chemosphere, 2008, 70(11): 1961-1972 Dupuis A, Migeot V, Cariot A, et al. Quantification of bisphenol A, 353-nonylphenol and their chlorinated derivatives in drinking water treatment plants [J]. Environmental Science and Pollution Research, 2012, 19(9): 4193-4205 Liu N, Jin X W, Feng C L, et al. Ecological risk assessment of fifty pharmaceuticals and personal care products (PPCPs) in Chinese surface waters: A proposed multiple-level system [J]. Environment International, 2020, 136: 105454 Zhao J L, Huang Z, Zhang Q Q, et al. Distribution and mass loads of xenoestrogens bisphenol A, 4-nonylphenol, and 4-tert-octylphenol in rainfall runoff from highly urbanized regions: A comparison with point sources of wastewater [J]. Journal of Hazardous Materials, 2021, 401: 123747 殷伟, 范德玲, 汪贞, 等. 天津市地表水体与沉积物中7种高关注酚类化合物的污染特征与生态风险分析[J]. 生态毒理学报, 2020, 15(1): 230-241 Yin W, Fan D L, Wang Z, et al. Pollution characteristics and ecological risks of 7 phenolic compounds of high concern in the surface water and sediments of Tianjin, China [J]. Asian Journal of Ecotoxicology, 2020, 15(1): 230-241 (in Chinese)
Chen Q, Lan Y, Shi J, et al. Levels of NP and BPA in the Pearl River Estuary, China: Fluctuations with country policy changes over the past 40 years [J]. International Journal of Environmental Research and Public Health, 2019, 16(21): 4100 周自坚, 刘文俊, 虢清伟, 等. 壬基酚聚氧乙烯醚在碱性印染废水中的降解[J]. 环境科学学报, 2015, 35(6): 1809-1816 Zhou Z J, Liu W J, Guo Q W, et al. The degradation of nonylphenol ethoxylates in the alkaline dyeing wastewater [J]. Acta Scientiae Circumstantiae, 2015, 35(6): 1809-1816 (in Chinese)
Fang Y X, Ying G G, Zhao J L, et al. Assessment of hormonal activities and genotoxicity of industrial effluents using in vitro bioassays combined with chemical analysis [J]. Environmental Toxicology and Chemistry, 2012, 31(6): 1273-1282 Horii Y, Katase T, Kim Y S, et al. Determination of individual nonylphenol isomers in water samples by using relative response factor method [J]. Bunseki Kagaku, 2004, 53: 1139-1147 Zhang H F, Zuehlke S, Guenther K, et al. Enantioselective separation and determination of single nonylphenol isomers [J]. Chemosphere, 2007, 66(4): 594-602 Lu Z J, Gan J. Isomer-specific biodegradation of nonylphenol in river sediments and structure-biodegradability relationship [J]. Environmental Science & Technology, 2014, 48(2): 1008-1014 Lu Z J, Reif R, Gan J. Isomer-specific biodegradation of nonylphenol in an activated sludge bioreactor and structure-biodegradability relationship [J]. Water Research, 2015, 68: 282-290 Shan J, Jiang B Q, Yu B, et al. Isomer-specific degradation of branched and linear 4-nonylphenol isomers in an oxic soil [J]. Environmental Science & Technology, 2011, 45(19): 8283-8289 Zhang H F, Spiteller M, Guenther K, et al. Degradation of a chiral nonylphenol isomer in two agricultural soils [J]. Environmental Pollution, 2009, 157(6): 1904-1910 Wang Y F, Tian L L, Wang L H, et al. Degradation, transformation, and non-extractable residue formation of nitrated nonylphenol isomers in an oxic soil [J]. Environmental Pollution, 2021, 289: 117880 Günther K, Räcker T, Böhme R. An isomer-specific approach to endocrine-disrupting nonylphenol in infant food [J]. Journal of Agricultural and Food Chemistry, 2017, 65(6): 1247-1254 Kim Y S, Katase T, Sekine S, et al. Variation in estrogenic activity among fractions of a commercial nonylphenol by high performance liquid chromatography [J]. Chemosphere, 2004, 54(8): 1127-1134 Routledge E J, Sumpter J P. Structural features of alkylphenolic chemicals associated with estrogenic activity [J]. The Journal of Biological Chemistry, 1997, 272(6): 3280-3288 Preuss T G, Gehrhardt J, Schirmer K, et al. Nonylphenol isomers differ in estrogenic activity [J]. Environmental Science & Technology, 2006, 40(16): 5147-5153 Saito H, Uchiyama T, Makino M, et al. Optical resolution and absolute configuration of branched 4-nonylphenol isomers and their estrogenic activities [J]. Journal of Health Science, 2007, 53(2): 177-184 Zhang H F, Oppel I M, Spiteller M, et al. Enantiomers of a nonylphenol isomer: Absolute configurations and estrogenic potencies [J]. Chirality, 2009, 21(2): 271-275 Roig B, Cadiere A, Bressieux S, et al. Environmental concentration of nonylphenol alters the development of urogenital and visceral organs in avian model [J]. Environment International, 2014, 62: 78-85 Cheng Y, Shan Z J, Zhou J Y, et al. Effects of long-term 4-nonylphenol dietary exposure on reproductive ability of Japanese quails (Coturnix japonica) [J]. Environmental Science and Pollution Research International, 2019, 26(3): 2908-2917 Uguz C, Varisli O, Agca C, et al. Effects of nonylphenol on motility and subcellular elements of epididymal rat sperm [J]. Reproductive Toxicology, 2009, 28(4): 542-549 Liu X Z, Nie S P, Chen Y J, et al. Effects of 4-nonylphenol isomers on cell receptors and mitogen-activated protein kinase pathway in mouse Sertoli TM4 cells [J]. Toxicology, 2014, 326: 1-8 Liu X Z, Li F X, Zhu Z L, et al. 4--phenol induces apoptosis and interrupts Ca2+ homeostasis via ROS pathway in Sertoli TM4 cells [J]. Environmental Science and Pollution Research, 2022, 29(35): 52665-52674 Ying F, Ding C, Ge R, et al. Comparative evaluation of nonylphenol isomers on steroidogenesis of rat Leydig cells [J]. Toxicology in Vitro, 2012, 26(7): 1114-1121 Celino-Brady F T, Petro-Sakuma C K, Breves J P, et al. Early-life exposure to 17β-estradiol and 4-nonylphenol impacts the growth hormone/insulin-like growth-factor system and estrogen receptors in Mozambique tilapia, Oreochromis mossambicus [J]. Aquatic Toxicology, 2019, 217: 105336 De la Parra-Guerra A, Olivero-Verbel J. Toxicity of nonylphenol and nonylphenol ethoxylate on Caenorhabditis elegans [J]. Ecotoxicology and Environmental Safety, 2020, 187: 109709 Yang W F, Gao X X, Wu Y X, et al. Chemical- and species-specific toxicity of nonylphenol and octylphenol to microalgae Chlorella pyrenoidosa and Scenedesmus obliquus [J]. Environmental Toxicology and Pharmacology, 2021, 81: 103517 Xia H, Wang A Q, Zhang Y F, et al. Effects of nonylphenol on immune function of female Sprague-Dawley rats [J]. Toxicological & Environmental Chemistry, 2013, 95: 658-668 Negishi T, Kawasaki K, Suzaki S, et al. Behavioral alterations in response to fear-provoking stimuli and tranylcypromine induced by perinatal exposure to bisphenol A and nonylphenol in male rats [J]. Environmental Health Perspectives, 2004, 112(11): 1159-1164 中国生态环境部. 水质 9种烷基酚类化合物和双酚A的测定 固相萃取/高效液相色谱法: HJ 1192—2021 [S]. 北京: 中国生态环境部, 2021 -
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