Abstract
Responses both to hyperosmotic stress and to heat shock were compared in 3T3 cells, spontaneously transformed cells (ST3T3) and simian virus 40-transformed cells (SV3T3). Cell adaptation to these stresses was measured in terms of surviving cell viability and plating efficiency, while their induced synthesis of stress proteins was monitored in terms of the presence of mRNA for HSP70, the pattern of polypeptides synthesised and the accumulation of HSP70 detectable by monoclonal antibodies. All three types of cells responded similarly to heat shock in their expression of HSP70 and showed no clear differences in ability to recover. In contrast, both ST3T3 and SV3T3 cells adapted more poorly and much more slowly to hyperosmotic stress (0.5 osM incubation) than did normal 3T3 cells. This different pattern of adaptation to hyperosmotic stress was parallelled by the cells' different expression of a stress protein that could not be distinguished from the heat-induced HSP70 by any of the methods listed above. In view of these findings it seems possible that hyperosmotic treatment might be useful in selectively affecting the survival of tumour cells.
Highlights
Methylated protein mixture and anti mouse actin monoclonal antibody were obtained from Amersham International plc, Amersham, Buckinghamshire, England
Adaptation was assessed in terms of (a) cell viability and (b) cell plating efficiency
Plating efficiency did give the same pattern, but with much smaller and more variable differences, the cell viability assay showed that both types of transformed cells recovered from heat shock somewhat better than did the 3T3 cells
Summary
Methylated protein mixture (myosin, phosphorylase b, bovine serum albumin, ovalbumin, carbonic anhydrase, and lysozyme) and anti mouse actin monoclonal antibody were obtained from Amersham International plc, Amersham, Buckinghamshire, England.
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