Fluorosis caused cellular apoptosis and oxidative stress of rat kidneys

Yang Song , Jin-cheng Wang , Hui Xu , Zhen-wu Du , Gui-zhen Zhang , Hamid Abdu Selim , Guang-sheng Li , Qing Wang , Zhong-li Gao

Chemical Research in Chinese Universities ›› 2013, Vol. 29 ›› Issue (2) : 263 -269.

PDF
Chemical Research in Chinese Universities ›› 2013, Vol. 29 ›› Issue (2) : 263 -269. DOI: 10.1007/s40242-013-2430-2
Articles

Fluorosis caused cellular apoptosis and oxidative stress of rat kidneys

Author information +
History +
PDF

Abstract

As the strongest electronegative element, fluorine can stimulate the production of superoxide radicals in cells. In view of the important roles of kidneys in bone metabolism, the authors analyzed the quantitative pathomorphological characteristics of renal damage and the potential cellular apoptosis and oxidative stress mechanisms in rats treated with excessive fluoride. Wistar rats were exposed to 50 mg F(110.5 mg NaF)/L, 100 mg F(221.0 mg NaF)/L and 150 mg F(331.5 mg NaF)/L in drinking water for 70 and 140 d, respectively. Microscope with image analysis was used to quantitate pathomorphological changes in renal tissues of the rats. Reactive oxygen species(ROS), the cell cycle and apoptosis of renal cells were measured by flow cytometry and TUNEL technique(terminal deoxynucleotidyl transferase dUTP nick end labeling), respectively. The ion concentrations in serum and renal functional parameters were detected by automatic biochemical analyzer. Quantitative analysis results demonstrate the expanded Bowman’s space of glomerulus and obvious dilatation of renal tubule. TUNEL technique revealed that NBT/BCIP (nitro blue tetrazolium/5-bromo-4-chloro-3′-indolylphosphate, p-toluidine salt)-staining positive apoptotic cells selectively located in medullocortical junction areas. The data suggest that renal damage in chronic fluorostic rats is associated with the cellular apoptosis and oxidative stress.

Keywords

Fluorosis / Apoptosis / Oxidative stress

Cite this article

Download citation ▾
Yang Song, Jin-cheng Wang, Hui Xu, Zhen-wu Du, Gui-zhen Zhang, Hamid Abdu Selim, Guang-sheng Li, Qing Wang, Zhong-li Gao. Fluorosis caused cellular apoptosis and oxidative stress of rat kidneys. Chemical Research in Chinese Universities, 2013, 29(2): 263-269 DOI:10.1007/s40242-013-2430-2

登录浏览全文

4963

注册一个新账户 忘记密码

References

Publishing order | Descend order by publishing year | Descend order by cited within
[1]

Rush G. F., Willis L. R. J. Pharmacol. Exp. Ther., 1982, 223(2): 275.
[2]

Schiffl H. H., Binswanger U. Nephron, 1980, 26(2): 69.

[3]

Yu Y., Gong Z., Zhang W. Chinese Journal of Endemiology, 1988, 7(1): 2.
[4]

Wu J., Li J. Endemioligical Translation Series, 1986, 6: 97.
[5]

Xiong X., Liu J., He W., Xia T., He P., Chen X., Yang K., Wang A. Environ. Res., 2007, 103(1): 112.

[6]

Guan Z. Z., Xiao K. Q., Zeng X. Y. Arch. Toxicol., 2000, 74(10): 602.

[7]

Lindman G. Arch. Path., 1959, 67(1): 30.
[8]

Adachi K., Dote T., Dote E. J. Occup. Health, 2007, 49(3): 235.

[9]

Singh A., Jolly S. S. Medicine, 1963, 42: 229.

[10]

Lantz O., Jouvin M. H., de Vernejoul M. C. Am. J. Kidney Dis., 1987, 10(2): 136.
[11]

Liu J. L., Xia T., Yu Y. Y., Sun X. Z., Zhu Q., He W., Zhang M. J. Hygiene Reasearch, 2005, 34(3): 287.
[12]

Ohno M., Kimoto K., Toyoda T., Kawata K., Arakawa H., J. Oral. Implantol., 2011, DMID: 22107042.
[13]

Das J. K., Susheela A. K. Environ. Res., 1993, 62(1): 14.

[14]

Broke J. L., Whitford G. M. J. Nutr., 1999, 129(6): 1209.
[15]

Murao H., Sakagami N., Iguchi T., Murakami T., Suketa Y. Biol. Pharm. Bull., 2000, 23(5): 581.

[16]

Hua K., Zhao H., Huang M. Chinese Journal of Applied Physiology, 2003, 19(2): 179.
[17]

Bu L. S., Zhang W. L., Bo L. H. Chinese Journal of Control of Endemic Disease, 2003, 18(5): 257.
[18]

Sato T., Niwa M. Floride, 1993, 26(1): 227.
[19]

Pant H. H., Rao M. V. Ecotoxicol. Environ. Saf., 2010, 73(6): 1333.

[20]

Zhan X. A., Wang M., Xu Z. R., Li W. F., Li J. X. J. Trace. Elem. Med. Biol., 2006, 20(2): 83.

[21]

Birkner E., Grucka M. E., Stawiarska P. B., Birkner K., Zalejska F. J., Kasperczyk S., Kasperczyk A. Biol. Trace. Elem. Res., 2009, 29(1–3): 137.

[22]

Rao S. M., Sherlin H. J., Anuja N., Pratibha R., Priya P., Chandrasekar T. Hum. Exp. Toxicol., 2011, 30(11): 1761.

[23]

Jacinto A. L. F., Hernández G. J. C., Trejo S. C., Jiménez F. M. D., Fernández P. A. M. J. Oral. Pathol. Med., 2010, 39(9): 709.

[24]

Barbier O., Arreola M. L., Del R. L. M. Chem. Biol. Interact., 2010, 188(2): 319.

[25]

Zhao D. M., Li L., Zhao C. R., Zhao G. H., Hu X. S. Chem. J. Chinese Universities, 2007, 28(1): 75.
AI Summary AI Mindmap
PDF

111

Accesses

0

Citation

Detail
Sections
Recommended

AI思维导图

/