Urokinase-dependent adhesion loss and shape change after cyclic adenosine monophosphate elevation in cultured rat mesangial cells.

Abstract

Mesangial cells in culture change shape and become less adhesive in response to cAMP elevation (e.g., treatment with isoproterenol plus isobutylmethylxanthine (IM). Inhibitors of serine proteases inhibit cellular shape change in response to IM. To further examine the role of cell surface proteases in shape change, adhesion plaque proteins (i.e., preparations of ventral membranes and extracellular matrix) were separated in SDS-polyacrylamide gels containing gelatin with and without plasminogen. Four discrete zones of lysis were evident in plasminogen gels (indicative of activation of plasminogen) from control adhesion plaques: one inconspicuous zone with a Mr approximately 150 kD, another at approximately 115 kD, and a doublet at approximately 35-32 kD. Another diffuse zone of lysis centered around Mr approximately 70 kD and contained a defined band of approximately 56 kD. Adhesion plaques contained most of the plasminogen activators (PA). 5 min after IM treatment, the Mr approximately 150- and approximately 115-kD PA were increased in activity. Vasopressin (VP), which prevented shape change and adhesion loss when added along with IM, inhibited the increase in these PA. Preincubation with monoclonal or polyclonal antibodies to urokinase-type plasminogen activator (uPA) totally inhibited the IM-inducible shape change and adhesion loss. Activation of plasminogen throughout the gels revealed multiple protease resistant bands that markedly increased with IM treatment (maximal at 45 min). These may represent focal control mechanisms. uPA thus may mediate focal proteolysis, which results in shape change and decreased adhesion.