Binding and degradation of blood coagulation factor XIII by cultured fibroblasts.

Abstract

The interaction of Factor XIII with cultured fibroblasts was examined using 125I-labeled protein and immunofluorescence. Platelet or plasma Factor XIII bound to confluent cell layers. Binding reached an apparent steady state after 8 h. Activation with thrombin increased the binding of both the platelet and plasma forms of the enzyme. After a 1-2 h lag, a chloroquine-inhibitable increase in trichloroacetic acid-soluble radioactivity was detected in the medium. Gel electrophoresis in sodium dodecyl sulfate indicated that approximately 16-fold more a subunit (catalytic) of 125I-plasma Factor XIII bound to the cell layer than b subunit (carrier) and that some large complexes containing Factor XIII were formed with the cell layer. Factor XIII binding increased linearly with concentrations of Factor XIII up to 230 micrograms/ml, whereas a component of the degradation of Factor XIII was saturable at about 20 micrograms/ml. Factor XIII associated with cell layers was catalytically active since it could cross-link fibronectin. By immunofluorescence the a subunit of Factor XIII was localized to fibronectin-containing extracellular fibrils and, in the presence of chloroquine, to intracellular granules. These results indicate that the a subunit of Factor XIII binds to the fibroblast extracellular matrix and matrix assembly sites, where it remains active, and to a putative cell-surface receptor which mediates its internalization and degradation.