Background: Foot process effacement and condensation of the glomerular epithelial cell (GEC) cytoskeleton are manifestations of passive Heymann nephritis, a model of complement-mediated membranous nephropathy.
Methods: To study the effects of complement on the actin cytoskeleton in this model, we have used an in vitro system in which GECs are sublethally injured using a combination of complement-fixing anti-Fx1A IgG and human serum as a source of complement. We examined the effects of this injury on the organization of the cytoskeleton and focal contacts using immunohistology and immunochemistry.
Results: By immunofluorescence, sublethal complement-mediated injury was accompanied by a loss of actin stress fibers and focal contacts but retention of matrix-associated integrins. Full recovery was seen after 18 hours. Western blot analysis showed no change in the cellular content of the focal contact proteins. Inhibition of the calcium-dependent protease calpain did not prevent injury. In addition, cycloheximide during recovery did not inhibit the reassembly of stress fibers or focal contacts. Injury was associated with a reduction in tyrosine phosphorylation of paxillin and a currently unidentified 200 kDa protein, but inhibition of tyrosine phosphatase activity with sodium vanadate did not prevent injury. Cellular adenosine triphosphate content was significantly reduced in injured cells.
Conclusion: These results document reversible, complement-dependent disruption of actin microfilaments and focal contacts leading to the dissociation of the cytoskeleton from matrix-attached integrins. This may explain the altered cell-matrix relationship accompanying podocyte effacement in membranous nephropathy.