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Actin-containing cables within anchorage-dependent rat embryo cells are dissociated by plasmin and trypsin

Pollack, Robert; Rifkin, D.

The distribution of intracellular actin has been examined by specific immunofluorescence in a series of normal and SV40-transformed cell lines of rat origin. A consistent correlation was found between the presence of large thick sheathes of actin-containing material and anchorage-dependent growth control. Anchorage-independent growth by these cells has been shown to be associated with the production and secretion of a plasminogen activator, and dependent upon the presence of the active protease plasmin. We have found that these phenomena can be linked as follows. First, treatment with plasmin, but not urokinase or plasminogen, reversibly removes the actin-containing cables from normal rat embryo fibroblasts, and similar results are obtained with trypsin. Thrombin and chymotrypsin are relatively ineffective in causing the disappearance of the cables. Second, sera such as dog or monkey, which permit high levels of plasmin formation and activity, support cell growth in semi-solid media better than sera in which plasminogen is activated poorly or that are plasminogen-deficient; concomitantly, cables disappear in the former but not in the latter sera. The addition of a plasmin inhibitor prevents the disappearance of actin-containing cables.

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Academic Units
Biological Sciences
Published Here
September 13, 2024