ISSN:
1432-0738
Keywords:
Cadmium
;
Resistance
;
Transformation
;
Golgi complex
;
Cytoskeleton
Source:
Springer Online Journal Archives 1860-2000
Topics:
Medicine
Notes:
Abstract A series of cell lines with different levels of resistance to continuous cadmium exposure has been developed from an immortal but non-transformed muntjac fibroblast cell line. Concentrations accepted in their culture medium range from 0.1 μM for the cadmium sensitive parent line to 5 μM for the intermediate “cadmium-tolerant” line, to 5, 10, 20 and 50 μM for the four “cadmium-resistant” lines. The present paper follows the morphological changes which accompanied the development of resistance through a 20-month pre-resistance period, a relatively abrupt 6-week transitional period and a 3-year post-resistance period, during which time levels of cadmium resistance were increased. Initial changes which led to the cadmium-tolerant CR5 cell line included (i) increased efficiency in autophagocytosing damaged cell components and in ridding the cell of residual waste materials, (ii) a reduction in fluid filled vacuoles and (iii) improved recycling and/or replacement of cadmium-damaged cell membrane. With the advent of cadmium resistance the intracellular damage necessitating these activities disappeared, yet the series of changes which occurred included a massive build-up of Golgi and the appearance of a trans-Golgi tubular network in addition to cytoskeletal and membrane changes. Though metallothionein levels are greater in the cadmium-resistant variants, their increase appears inadequate on their own to account for the high levels of resistance. The post-resistance changes which accompanied each step-up in cadmium resistance included further membrane and glycocalyx changes, in addition to continued increases in Golgi bodies and tubular network. This paper details the morphological changes which occurred throughout the 5-year period, tests the direct dependence of each on the presence of cadmium and examines their possible contribution to a cadmium protective mechanism.
Type of Medium:
Electronic Resource
URL:
http://dx.doi.org/10.1007/BF01974391
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