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长期铅暴露雄性大鼠脑组织铁过载及DNA氧化损伤 被引量:5

Effect of iron overload and DNA oxidative stress in male rats brain exposed to lead
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摘要 目的研究铅暴露对不同生长阶段SD雄性大鼠脑组织铅、铁水平及DNA氧化损伤的影响。方法将12只SPF级SD雌性大鼠随机分为3组,分别为空白对照(去离子水)组和低(0.8 g/L)、高(1.5 g/L)剂量乙酸铅染毒组,每组4只。采用自由饮水方式进行染毒,自妊娠前10 d至仔鼠断乳(出生后21 d)。待断乳后,每组选取21只雄性仔鼠,相应各组分别自由饮用去离子水和0.3、0.9 g/L乙酸铅溶液。仔鼠分别饲养至断乳(21 d)、中年(12个月)、老年(18个月)时,检测脑组织中铅、铁和8-羟基脱氧鸟苷(8-hydroxy-2’-deoxyguanosine,8-OHdG)的水平。结果在同一生长阶段,随着铅染毒剂量的升高,大鼠脑铅、脑铁及脑组织8-OHdG水平均增加。线性回归分析结果显示,在断乳期和老年期,大鼠脑铁、脑8-OHdG水平随着脑铅水平的升高而上升(P<0.05);同时,脑铅、脑铁联合作用使大鼠脑8-OHdG水平升高(P<0.05)。而中年期无明显改变。在空白对照组和各剂量铅染毒组中,随着铅染毒时间的延长,大鼠脑铅、脑铁水平均增高(P<0.05)。空白对照组中,脑8-OHdG水平在中年、老年期增高(P<0.05);低剂量组改变不明显;高剂量组在老年期明显升高(P<0.05),中年期改变不明显。结论铅暴露可致SD大鼠脑组织铁过载及DNA氧化损伤。 Objective To investigate the brain iron,brain DNA and oxidative stress of the SD rat brain in different development stages. Methods SPF female and male Sprague-Dawley rats were respectively randomly divided into three groups:control,low lead-exposed, high lead-exposed. Lead-exposed female rats drank 0.8,1.5 g/L lead acetate solutions during the first ten-day of pregnancy until weaning and then the male pups received 0.3,0.9 g/L lead acetate solution depending on their group. When pups grew up to weaning (21 days),mid-age (ten months) and old-age (18 months) , the DNA of brain tissue were extracted,digested and the contents of 8-OHdG were determined by ELISA. The offspring were measured the lead and iron concentration of brain by ICP-AES. Results At the same growth stage,the brain lead, brain iron and 8-OHdG contents were higher in different lead exposure groups compared with the control. Linear regression showed that the brain iron and the 8-OHdG contents of the brain were higher in different lead exposure groups (P〈0.05); Brain iron and brain lead could jointly raise the 8-OHdG of brain(P〈0.05), whether a synergistic effect between brain iron and brain lead needed to be validated. The 8-OHdG contents increased with lead exposure levels at weaning and the old-age (P〈0.05). In control group,the mid-age and old-age groups were higher than the weaning rats (P〈0.05). In high lead group, the old-age group was higher than the mid-age and weaning rats (P〈O.05). There was no significant difference in mid-aged rats. Conclusion Lead exposure may induce iron overload and DNA damage in rat brain.
作者 焦欢 陈英 黎砚书 周繁坤 杜桂花 管临福 王志平 冯昶 祝高春 范广勤
机构地区 南昌大学公共卫生学院 南昌大学医学院人体解剖学教研室
出处 《环境与健康杂志》 CAS CSCD 北大核心 2013年第5期406-409,共4页 Journal of Environment and Health
基金 国家自然科学基金(30960324 81273120 21267017)
关键词 铅暴露 8-羟基脱氧鸟苷 Lead exposure Iron 8-hydroxy-2' -deoxyguanosine
分类号 R994.6 [医药卫生—毒理学]
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  • 1[1]Mayser, P.S., Fromme, C., Leitzamann, and Gruender, K.(1995). The yeast spectrum of the tea fungus Kombucha. Mycoses. 38(7-8), 289-295.
  • 2[2]Greenwalt, C.J., Steinkraus, K.H., and Ledford, R.A.(2000). Kombucha, the fermented tea: microbiology,composition and claimed health effects. Food Protection Org. 63(7), 976-981.
  • 3[3]Hartnann, A.M., Burleson, L.E., Holmes, A.K., and Geist, C.R.(2000). Effects of chronic Kombucha ingestion on open-field behaviours, longevity, appetitive behaviours, and organs inc57-bl/6 mice: a pilot study. Nutrition 16(9), 755-761.
  • 4[4]Sreeramulu, G., Zhu, Y., and Knol, W.(2000). Kombucha fermentation and its antimicrobial activity. J. Agric.Food Chem. 48(6), 2589-2594.
  • 5[5]Chandralekha, S.K.(2000). Hypoglycemic activity of bio-tea in mice. Ind. J. Exp. Biol. 38, 278-279.
  • 6[6]Sairam, M., Anju, B., Pauline, T., Dipti Prasad, Kain, A.K., Mongia, S.S., Shanna, S.K., Singh, B., Singh, R.,Ilavazhagan, G., Devendra Kumar, and Selvamurthy, W.(2000). Effect of Kombucha Tea on chromate(VI)induced oxidative tress in albino rats. J. Ethanopharmacol. 71,235-240.
  • 7[7]Kum-Talt and Tan(1974). A new colorimetric method for determination of glutathione in erythrocytes. Clin.Chem. Acta 53, 153-161.
  • 8[8]Dousset, J.C., Trouih, M., and Yogi, K.(1983). Plasma MDA level during myocardial infarction. Clin. Chim.Acta 129, 319-322.
  • 9[9]Atal, C.K., Sharma, M.L., Kaul, A., and Khajuria, A.(1986). Immunomodulating agents of plant origin.I.Preliminary screening. J. Ethnopharmacol. 41, 185-192.
  • 10[10]Sairam, M., Sharma, S.K., Ilavazhagan, G., Devendra, K., and Selvamurthy, W.(1997). Immunomodulatory effects of neem oil, a volatile fraction from neem oil. J. Ethnopharmocol. 55, 133-139.

共引文献15

同被引文献67

  • 1胡前胜,任铁玲,傅洪军,董胜璋,陈学敏.低剂量铅对海马神经元神经细胞黏附分子表达的影响[J].中华预防医学杂志,2004,38(6):379-382. 被引量:10
  • 2王雪飞,张杰,张智勇,刘年庆,赵保路,柴之芳.铅对大鼠体内锌、铜、铁和锰含量的影响[J].核化学与放射化学,2004,26(4):215-219. 被引量:11
  • 3陈凤娟,周自新,莫宝庆.食品铅污染状况及对儿童健康的影响[J].江苏预防医学,2004,15(4):82-83. 被引量:8
  • 4韦东禄,傅雪,姜岳明,Zheng Wei.铅暴露与阿尔茨海默病[J].工业卫生与职业病,2006,32(6):379-382. 被引量:8
  • 5Nappi AJ, Vass E. Iron, metalloenzymes and cytotoxic reactions[J]. Cell Mol Biol, 2000, 46(3 ): 637-647.
  • 6Ganz T. Cellular iron: ferroportin is the only way out [J]. Cell Metab, 2005,1(3): 155-157.
  • 7Hahn P,Dentchev T, Qian Y,et al.lmmunolocalization and regulation of iron handling proteins fenitin and ferroportin in the retina[J].Mol Vis,2004,10: 598-607.
  • 8De Domenico I,Ward DM,di Patti MC,et al.Ferroxidase activity is required for the stability of cell surface fe,Toportin in cells expressing GPI-ceruloplas-min[J].EMBO J,2007,26 ( 12 ) :2823- 2831.
  • 9Rubio-Andrade M, Vald6s-PSrezgasga F, Alonso J, et al. Follow-up study on lead exposure in children living in a smelter community in northern Mexico[J]. Environ Health, 2011,10: 66.
  • 10Taylor MP, Schniering C.The public minimization of the risks associated with environmental lead exposure and elevated blood lead levels in children Mount Isa, Queensland, Australia[J]. Arch Environ Occup Health, 2010, 65( 1 ) : 45-48.

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环境与健康杂志
2013年 第5期

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