Abstract
Twenty-four male rats of the Wistar strain divided into four groups were injected sc with a dose of 0.8, 1.5, and 3.0 mg Cd/kg body wt as CdCl2 in saline, and saline alone to the control rats, three times a week for 3 wk. Cadmium levels of whole kidney homogenate, supernatant (cytosol), precipitate, and metallothionein (MT) fraction were measured. Histological changes of the renal proximal tubules were investigated by optical and electron microscopy. In the kidneys, Cd levels were increased with the increment of Cd dosage; 80–90% of Cd was contained in cytosol, and 55–75% was in MT fraction. Non-MT-Cd reached a maximum in the 1.5 mg Cd group, whereas that of the 3.0 mg Cd group showed some decline. With increasing Cd doses, the size of nuclei and nucleoli in the cells of proximal tubule showed significant enlargement and also an increase in the number of nucleoli on light microscopy. At higher doses, chromatin condensation of the tubular nuclei and vacuolar degeneration of the tubular cells were evident.
On electron microscopy, perichromatin granules of the proximal tubular nuclei were increased in number, especially in the rats of Cd 0.8 mg and 1.5 mg/kg groups. As the Cd doses increased, ring-shaped nucleoli were increased in number and nucleolar segregation was observed more clearly. Moreover, in the 3.0 mg/kg Cd group, nuclear indentation and nucleoli containing compact dense granules were observed. In the cytoplasm, there was an increase of lysosomes, myelin bodies, ring-shaped mitochondria, and vesiculation; ultimate changes were degeneration and cell necrosis. The injured cells were heterogenously distributed in each nephron and this heterogeneity was attributed in the difference in Cd content and cell cycle in each cell of the nephron.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Copius Peereboom, J. W. and Copius Peereboom-Stegeman, J. H. J.,Toxicol. Environ. Chem. Rev. 4, 67–78 (1981).
Shenker, B. J., Matarazzo, W. J., Hirsch, R. L., and Gray, I.,Cell. Immunol. 34, 19–24 (1977).
Stoll, R. E., White, J. F., Miya, T. S., and Bousquet, W. F.,Toxicol. Appl. Pharmacol. 37, 61–74 (1976).
Gallagher, K., Matarazzo, W. J., and Gray, I.,Clin. Immunol. Immunopathol. 13, 369–377 (1979).
Singhal, R. L., Merali, Z., Kacew, S., and Sutherland, D. J. B.,Science,183, 1094–1096 (1974).
Krasny, H. C. and Holbrook, D. J.,Mol. Pharmacol. 13, 759–765 (1977).
Hildebrand, C. E. and Cram, L. S.,Proc. Soc. Exp. Biol. Med. 161, 438–443 (1979).
Webb, M. inMetallothionein, Kagi, J. H. and Nordberg, M., eds., Birkhauser Verlag, Basel/Boston/Stuttgart, pp. 313–320 (1979).
Kunifuji, Y., Nakamura, T., and Takasugi, M.,Biol. Trace Element. Res. 14, 237–248 (1987).
Nishizumi, M.,Arch. Environ. Hlth. 24, 215–225 (1972).
Sina, J. F. and Chin, B.,Toxicol. Appl. Pharmacol. 43, 449–459 (1978).
Puvion, E. and Lange, M.,Exp. Cell. Res. 128, 47–58 (1980).
Ree, K., Rugstad, H. E., and Bakka, A.,Acta Pathol. Microbiol. Immunol. Scand. (Sect. A.)90, 427–435 (1982).
Chadially, F. N.Ultrastructural Pathology of the Cell and Matrix, 3rd Ed. Butterworths, London/Boston/Singapore/Sydney/Toronto/Wellington, pp. 56–63 (1988).
Rugstad, H. E. and Norseth, T.,Nature (London)257, 136,137 (1975).
Leber A. P. and Miya, T. S.,Toxicol. Appl. Pharmacol. 37, 403–414 (1976).
Rao, M. S., Mangino, M. M., Usman, M. I., Subbarao, V., Scarpelli, O. G., Reddy, M. K., and Reddy, J. K.,Cancer Res. 47, 1657–1662 (1987).
Author information
Authors and Affiliations
Rights and permissions
About this article
Cite this article
Matsuura, K., Takasugi, M., Kunifuji, Y. et al. Morphological effects of cadmium on proximal tubular cells in rats. Biol Trace Elem Res 31, 171–182 (1991). https://doi.org/10.1007/BF02990425
Received:
Accepted:
Issue Date:
DOI: https://doi.org/10.1007/BF02990425