留言板

尊敬的读者、作者、审稿人, 关于本刊的投稿、审稿、编辑和出版的任何问题, 您可以本页添加留言。我们将尽快给您答复。谢谢您的支持!

姓名
邮箱
手机号码
标题
留言内容
验证码

拟除虫菊酯类农药暴露的免疫毒理学研究进展

齐志业 陈颖 李燕

齐志业, 陈颖, 李燕. 拟除虫菊酯类农药暴露的免疫毒理学研究进展[J]. 昆明医科大学学报, 2024, 45(8): 154-160. doi: 10.12259/j.issn.2095-610X.S20240822
引用本文: 齐志业, 陈颖, 李燕. 拟除虫菊酯类农药暴露的免疫毒理学研究进展[J]. 昆明医科大学学报, 2024, 45(8): 154-160. doi: 10.12259/j.issn.2095-610X.S20240822
Zhiye QI, Ying CHEN, Yan LI. Research Progress on Immunotoxicology of Pyrethroid Pesticides Exposures[J]. Journal of Kunming Medical University, 2024, 45(8): 154-160. doi: 10.12259/j.issn.2095-610X.S20240822
Citation: Zhiye QI, Ying CHEN, Yan LI. Research Progress on Immunotoxicology of Pyrethroid Pesticides Exposures[J]. Journal of Kunming Medical University, 2024, 45(8): 154-160. doi: 10.12259/j.issn.2095-610X.S20240822

拟除虫菊酯类农药暴露的免疫毒理学研究进展

doi: 10.12259/j.issn.2095-610X.S20240822
基金项目: 国家自然科学基金资助项目(82160621);云南省科技厅-昆明医科大学应用基础研究联合专项基金资助项目(202101AY070001-099)
详细信息
    作者简介:

    齐志业(1980~),男,河南兰考人 ,医学博士,副主任医师,主要从事新生儿免疫与感染性疾病研究工作

    通讯作者:

    李燕,E-mail:yanli20021965@21cn.com

  • 中图分类号: R114

Research Progress on Immunotoxicology of Pyrethroid Pesticides Exposures

  • 摘要: 免疫功能是人体的重要生理功能,在维持人类健康中起着至关重要的作用。拟除虫菊酯类农药(pyrethroid pesticides, PYRs)及其代谢产物可对机体产生免疫毒性,导致免疫相关疾病的患病风险增加。通过对PYRs暴露对机体免疫器官、免疫细胞和免疫分子的影响及其免疫毒理学机制进行综述,并对生命早期PYRs暴露所致机体免疫毒性进行总结和展望,为人类PYRs暴露的免疫毒理学研究提供新的思路和建议。
  • 图  1  PYRs暴露所致机体免疫毒性的机制及信号传导通路示意图

    Figure  1.  Schematic diagram of the mechanisms and signal transduction pathways of immune toxicity caused by PYRs exposure

  • [1] Chrustek A,Holynska-Iwan I,Dziembowska I,et al. Current research on the safety of pyrethroids used as insecticides[J]. Medicina (Kaunas),2018,54(4):1-15.
    [2] Burns C J,Pastoor T P. Pyrethroid epidemiology: A quality-based review[J]. Crit Rev Toxicol,2018,48(4):297-311. doi: 10.1080/10408444.2017.1423463
    [3] Qi Z,Song X,Xiao X,et al. Effects of prenatal exposure to pyrethroid pesticides on neurodevelopment of 1-year- old children: A birth cohort study in China[J]. Ecotoxicol Environ Saf,2022,234(4):113384.
    [4] Chauhan R,Kumari B,Rana M K. Effect of fruit and vegetable processing on reduction of synthetic pyrethroid residues[J]. Rev Environ Contam Toxicol,2014,229(1):89-110.
    [5] Saillenfait A M,Ndiaye D,Sabate J P. Pyrethroids: Exposure and health effects-an update[J]. Int J Hyg Environ Health,2015,218(3): 281-292.
    [6] Kumar A,Sharma R,Rana D,et al. Protective effect of alpha-tocopherol in deltamethrin induced immunotoxicity[J]. Endocr Metab Immune Disord Drug Targets,2019,19(2):171-184. doi: 10.2174/1871530318666180801144822
    [7] Dawood M,Abdel-Kader M F,Moustafa E M,et al. Growth performance and hemato-immunological responses of Nile tilapia (Oreochromis niloticus) exposed to deltamethrin and fed immunobiotics[J]. Environ Sci Pollut Res Int,2020,27(11):11608-11617. doi: 10.1007/s11356-020-07775-8
    [8] Hussein M M,Ahmed M M. The Th1/Th2 paradigm in lambda cyhalothrin-induced spleen toxicity: The role of thymoquinone[J]. Environ Toxicol Pharmacol,2016,41(1):14-21.
    [9] Chauhan L K,Varshney M,Pandey V,et al. ROS-dependent genotoxicity,cell cycle perturbations and apoptosis in mouse bone marrow cells exposed to formulated mixture of cypermethrin and chlorpyrifos[J]. Mutagenesis,2016,31(6):635-642. doi: 10.1093/mutage/gew031
    [10] Prater M R,Gogal R J,Blaylock B L,et al. Single-dose topical exposure to the pyrethroid insecticide,permethrin in C57BL/6N mice: Effects on thymus and spleen[J]. Food Chem Toxicol,2002,40(12):1863-1873. doi: 10.1016/S0278-6915(02)00163-1
    [11] Kumar A,Sasmal D,Sharma N. Mechanism of deltamethrin induced thymic and splenic toxicity in mice and its protection by piperine and curcumin: In vivo study[J]. Drug Chem Toxicol,2018,41(1):33-41. doi: 10.1080/01480545.2017.1286352
    [12] Jin Y,Pan X,Fu Z. Exposure to bifenthrin causes immunotoxicity and oxidative stress in male mice[J]. Environ Toxicol,2014,29(9):991-999. doi: 10.1002/tox.21829
    [13] Aroonvilairat S,Tangjarukij C,Sornprachum T,et al. Effects of topical exposure to a mixture of chlorpyrifos,cypermethrin and captan on the hematological and immunological systems in male Wistar rats[J]. Environ Toxicol Pharmacol,2018,59(4):53-60.
    [14] Righi D A,Xavier F G,Palermo-Neto J. Effects of type II pyrethroid cyhalothrin on rat innate immunity: A flow cytometric study[J]. Int Immunopharmacol,2009,9(1):148-152.
    [15] Emara A M,Draz E I. Immunotoxicological study of one of the most common over-the-counter pyrethroid insecticide products in Egypt[J]. Inhal Toxicol,2007,19(12):997-1009.
    [16] Punareewattana K,Smith B J,Blaylock B L,et al. Topical permethrin exposure inhibits antibody production and macrophage function in C57Bl/6N mice[J]. Food Chem Toxicol,2001,39(2):133-139. doi: 10.1016/S0278-6915(00)00116-2
    [17] Dutta R,Das N. Immunomodulation of serum complement (C3) and macrophages by synthetic pyrethroid fenvalerate: In vitro study[J]. Toxicology,2011,285(3):126-132. doi: 10.1016/j.tox.2011.04.012
    [18] Zhang Y,Zhao M,Jin M,et al. Immunotoxicity of pyrethroid metabolites in an in vitro model[J]. Environ Toxicol Chem,2010,29(11):2505-2510.
    [19] Diel F,Horr B,Borck H,et al. Pyrethroids and piperonyl-butoxide affect human T-lymphocytes in vitro[J]. Toxicol Lett,1999,107(1):65-74.
    [20] Ramos-Chavez L A,Sordo M,Calderon-Aranda E,et al. A permethrin/allethrin mixture induces genotoxicity and cytotoxicity in human peripheral blood lymphocytes[J]. J Toxicol Environ Health A,2015,78(1):7-14. doi: 10.1080/15287394.2015.956025
    [21] Calderon-Segura M E,Gomez-Arroyo S,Cortes-Eslava J,et al. In vitro cytotoxicity and genotoxicity of Furia((R))180 SC (zeta-cypermethrin) and Bulldock 125((R))SC (beta-cyfluthrin) pyrethroid insecticides in human peripheral blood lymphocytes[J]. Toxicol Mech Methods,2018,28(4):268-278. doi: 10.1080/15376516.2017.1402977
    [22] Kumar A,Sasmal D,Bhaskar A,et al. Deltamethrin-induced oxidative stress and mitochondrial caspase-dependent signaling pathways in murine splenocytes[J]. Environ Toxicol,2016,31(7):808-819. doi: 10.1002/tox.22091
    [23] Kumar A,Gupta M,Sharma R,et al. Deltamethrin-induced immunotoxicity and its protection by Quercetin: An experimental study[J]. Endocr Metab Immune Disord Drug Targets,2020,20(1):67-76. doi: 10.2174/1871530319666190410144540
    [24] Joshi U,Pearson A,Evans J E,et al. A permethrin metabolite is associated with adaptive immune responses in Gulf War Illness[J]. Brain Behav Immun,2019,81(10):545-559.
    [25] Hadnagy W,Leng G,Sugiri D,et al. Pyrethroids used indoors-immune status of humans exposed to pyrethroids following a pest control operation-a one year follow-up study[J]. Int J Hyg Environ Health,2003,206(2): 93-102.
    [26] El O E,Abdel-Hamid M A,Hamdy A M. Immunological and genotoxic effects of occupational exposure to alpha-cypermethrin pesticide[J]. Int J Occup Med Environ Health,2017,30(4):603-615.
    [27] Rehman H,Mohan A,Tabassum H,et al. Deltamethrin increases candida albicans infection susceptibility in mice[J]. Scand J Immunol,2011,73(5):459-464. doi: 10.1111/j.1365-3083.2011.02521.x
    [28] Zhang L,Zhao X,Yan S,et al. The immune responses of the Chinese rare minnow (Gobiocypris rarus) exposed to environmentally relevant concentrations of cypermethrin and subsequently infected by the bacteria Pseudomonas fluorescens[J]. Environ Pollut,2019,250(7):990-997.
    [29] Aouey B,Derbali M,Chtourou Y,et al. Pyrethroid insecticide lambda-cyhalothrin and its metabolites induce liver injury through the activation of oxidative stress and proinflammatory gene expression in rats following acute and subchronic exposure[J]. Environ Sci Pollut Res Int,2017,24(6):5841-5856. doi: 10.1007/s11356-016-8323-4
    [30] Moustafa G G,Hussein M M. Lambda cyhalothrin toxicity induces alterations in lipogenic genes and inflammatory factors in rat liver[J]. Jpn J Vet Res,2016,64(1):25-38.
    [31] Shi W,Zhang D,Wang L,et al. Curcumin synergistically potentiates the protective effect of sitagliptin against chronic deltamethrin nephrotoxicity in rats: Impact on pro-inflammatory cytokines and Nrf2/Ho-1 pathway[J]. J Biochem Mol Toxicol,2019,33(10):e22386.
    [32] Fedeli D,Montani M,Carloni M,et al. Leukocyte Nurr1 as peripheral biomarker of early-life environmental exposure to permethrin insecticide[J]. Biomarkers,2012,17(7):604-609. doi: 10.3109/1354750X.2012.706641
    [33] Costa C,Rapisarda V,Catania S,et al. Cytokine patterns in greenhouse workers occupationally exposed to alpha-cypermethrin: An observational study[J]. Environ Toxicol Pharmacol,2013,36(3):796-800. doi: 10.1016/j.etap.2013.07.004
    [34] Wang X,He B,Kong B,et al. beta-Cypermethrin and its metabolite 3-phenoxybenzoic acid exhibit immunotoxicity in murine macrophages[J]. Acta Biochim Biophys Sin (Shanghai),2017,49(12):1083-1091. doi: 10.1093/abbs/gmx111
    [35] Diel F,Horr B,Borck H,et al. Pyrethroid insecticides influence the signal transduction in T helper lymphocytes from atopic and nonatopic subjects[J]. Inflamm Res,2003,52(4):154-163. doi: 10.1007/s000110300066
    [36] Scatena R,Martorana G E,Bottoni P,et al. Mitochondrial dysfunction by synthetic ligands of peroxisome proliferator activated receptors (PPARs)[J]. IUBMB Life,2004,56(8):477-482. doi: 10.1080/15216540400008416
    [37] Elbanna R,Osman K A,Salama M S. Biomarkers of oral subacute toxicity of deltamethrin in exposed male Albino rats[J]. Toxicol Ind Health,2023,39(12):735-753. doi: 10.1177/07482337231209360
    [38] Kumar A,Sasmal D,Sharma N. Deltamethrin induced an apoptogenic signalling pathway in murine thymocytes : Exploring the molecular mechanism[J]. J Appl Toxicol,2014,34(12): 1303-1310.
    [39] Diel F,Horr B,Detscher M,et al. Pyrethroids and the synergist piperonyl-butoxide (PBO) affect T-cells and basophils[J]. Inflamm Res,1999,48(1):15-16.
    [40] Diel F,Detscher M,Schock B,et al. In vitro effects of the pyrethroid S-bioallethrin on lymphocytes and basophils from atopic and nonatopic subjects[J]. Allergy,1998,53(11):1052-1059. doi: 10.1111/j.1398-9995.1998.tb03814.x
    [41] Enan E,Pinkerton K E,Peake J,et al. Deltamethrin-induced thymus atrophy in male Balb/c mice[J]. Biochem Pharmacol,1996,51(4):447-454. doi: 10.1016/0006-2952(95)02200-7
    [42] 王甜甜,陈淳媛,杨雷,等. Nrf2/HO-1信号轴在氧化应激性疾病中的机制[J]. 中南大学学报(医学版),2019,44(1):74-80. doi: 10.11817/j.issn.1672-7347.2019.01.012
    [43] Li B,Wang Y,Zhao H,et al. Oxidative stress is involved in the activation of NF-kappaB signal pathway and immune inflammatory response in grass carp gill induced by cypermethrin and/or sulfamethoxazole[J]. Environ Sci Pollut Res Int,2022,29(13):19594-19607. doi: 10.1007/s11356-021-17197-9
    [44] Dietert R R. Developmental immunotoxicology: Focus on health risks[J]. Chem Res Toxicol,2009,22(1):17-23. doi: 10.1021/tx800198m
    [45] Santoni G,Cantalamessa F,Cavagna R,et al. Cypermethrin-induced alteration of thymocyte distribution and functions in prenatally-exposed rats[J]. Toxicology,1998,125(1):67-78. doi: 10.1016/S0300-483X(97)00152-2
    [46] Hocine L,Merzouk H,Merzouk S A,et al. The effects of alpha-cypermethrin exposure on biochemical and redox parameters in pregnant rats and their newborns[J]. Pestic Biochem Physiol,2016,134(11):49-54.
    [47] Jin Y,Zheng S,Fu Z. Embryonic exposure to cypermethrin induces apoptosis and immunotoxicity in zebrafish (Danio rerio)[J]. Fish Shellfish Immunol,2011,30(4-5):1049-1054. doi: 10.1016/j.fsi.2011.02.001
    [48] Neta G,Goldman L R,Barr D,et al. Fetal exposure to chlordane and permethrin mixtures in relation to inflammatory cytokines and birth outcomes[J]. Environ Sci Technol,2011,45(4):1680-1687. doi: 10.1021/es103417j
    [49] Michael B,Gregory A R,Aleksandr Y A,et al. Global burden and strength of evidence for 88 risk factors in 204 countries and 811 subnational locations,1990–2021: A systematic analysis for the Global Burden of Disease Study 2021[J]. The Lancet,2024,403(10440):2162-2203. doi: 10.1016/S0140-6736(24)00933-4
    [50] Kuper C F,van Bilsen J,Cnossen H,et al. Development of immune organs and functioning in humans and test animals: Implications for immune intervention studies[J]. Reprod Toxicol,2016,64(9):180-190.
    [51] Huang J,Eskenazi B,Bornman R,et al. Maternal peripartum serum DDT/E and urinary pyrethroid metabolite concentrations and child infections at 2 years in the VHEMBE birth cohort[J]. Environ Health Perspect,2018,126(6):67006. doi: 10.1289/EHP2657
  • [1] 杨思蔚, 李燕, 肖霞, 宋肖肖, 孙琳, 马瑞.  云南宣威农村妇女不同孕期拟除虫菊酯类农药暴露情况及影响因素分析, 昆明医科大学学报. doi: 10.12259/j.issn.2095-610X.S20241108
    [2] 章秀珍, 胡灿艳, 蔡磊.  基于肝功能、IgA、IgM、IgG水平分析双环醇联合更昔洛韦治疗对EB病毒相关IM患儿的应用效果, 昆明医科大学学报.
    [3] 李从信, 岳海东, 朱鹏熹, 黄光仙, 沐领捷, 彭亚男, 王怡洁, 杨洋.  老年脓毒症患者不同维生素D水平与免疫炎症指标相关性分析, 昆明医科大学学报.
    [4] 刘记宏, 马志强, 王霖, 王晓燕, 田伟光, 李保萍, 董睿, 吕玉佳.  肺结核患者感染新冠病毒免疫功能的相关性分析, 昆明医科大学学报. doi: 10.12259/j.issn.2095-610X.S20240423
    [5] 张英, 杨凤霞, 郭敬, 张庆玲.  循S-ABC框架的系统心理干预措施对原发性肝癌患者围术期心理痛苦及免疫功能的影响, 昆明医科大学学报. doi: 10.12259/j.issn.2095-610X.S20231126
    [6] 王霖, 沈凌筠, 李海雯, 王晓燕, 高建鹏, 马志强.  云南省肺结核病患者营养状况及免疫功能分析, 昆明医科大学学报. doi: 10.12259/j.issn.2095-610X.S20230116
    [7] 何玲, 余泽豪.  重症肺炎支原体肺炎CD3+HLA-DR表达与VitA水平相关性分析, 昆明医科大学学报. doi: 10.12259/j.issn.2095-610X.S20220528
    [8] 陆霓虹, 刘洪璐, 夏加伟, 陈杨君, 沈凌筠, 杨永锐, 李杰.  免疫功能和SAA、MMP-9、MMP-14在抗结核药物性肝损伤中的临床评估, 昆明医科大学学报. doi: 10.12259/j.issn.2095-610X.S20220410
    [9] 周樟屏, 贺小琼, 段灵, 滕松, 梁卓宣.  天然活性化合物松萝胺的毒理学安全性评价, 昆明医科大学学报. doi: 10.12259/j.issn.2095-610X.S20210642
    [10] 马瑞, 李燕.  拟除虫菊酯类农药暴露对人群生殖系统及甲状腺和婴幼儿体格发育影响的研究进展, 昆明医科大学学报.
    [11] 唐雪梅, 李勇, 李婷婷.  有机磷农药中毒致患者呼吸功能衰竭的急救措施与疗效, 昆明医科大学学报.
    [12] 孙琳, 肖霞, 李燕, 杨思蔚, 徐庆华, 马瑞, 吴洁, 张超, 郭光萍.  云南农村妇女孕早期拟除虫菊酯类农药暴露及影响因素, 昆明医科大学学报.
    [13] 贺云发.  地衣抗癌活性部位AMH-T的毒理学, 昆明医科大学学报.
    [14] 贺云发, 贺小琼, 姜重阳, 王静, 胡松杉, 税靖霖.  地衣抗癌活性部位AMH-T的毒理学研究, 昆明医科大学学报.
    [15] 洪旭华.  结核药联合利福喷丁对肺结核患者免疫功能、炎症因子、VEGF及MMP-9的影响, 昆明医科大学学报.
    [16] 李彬.  版纳印奇果毒理学安全性研究, 昆明医科大学学报.
    [17] 谷欣.  免疫性血小板减少性紫癜患者行腹腔镜脾切除术后免疫功能的研究, 昆明医科大学学报.
    [18] 老年癌痛与抑郁的相关性及其对免疫功能的影响研究, 昆明医科大学学报.
    [19] 沈丽达.  老年癌痛与抑郁的相关性及其对免疫功能的影响研究, 昆明医科大学学报.
    [20] 张雁丽.  化合物LJZ对小鼠移植瘤生长和荷瘤小鼠免疫功能的影响, 昆明医科大学学报.
  • 加载中
图(1)
计量
  • 文章访问数:  819
  • HTML全文浏览量:  873
  • PDF下载量:  18
  • 被引次数: 0
出版历程
  • 收稿日期:  2024-02-20
  • 网络出版日期:  2024-07-08
  • 刊出日期:  2024-08-25

目录

    /

    返回文章
    返回