We have constructed amplified Chinese hamster ovary cell lines constitutively synthesizing human tissue-type plasminogen activator (t-PA) or a derivative in which the domains homologous to epidermal growth factor and kringle 1 have been removed [delta(G + K1)]. The properties of the secreted proteins were investigated when synthesized in the presence or absence of the serine protease inhibitor aprotinin in the medium. t-PA in the culture supernatants was either single-chain or two-chain protein. The protease activity of both forms was stimulated by fibrin. The biochemical properties of delta(G + K1) were significantly different when harvested from cells grown under different culturing conditions. Protease activity of delta(G + K1) was stimulated ten- to 20-fold by fibrin when harvested from medium with aprotinin, but was stimulated only two- to three-fold when aprotinin was absent from the serum. Characterization of the secreted proteins revealed that the heavy-chain equivalent of delta(G + K1) is degraded when serine protease inhibitor is absent in the culture medium. These results indicate that the functional and biochemical properties of restructured versions of t-PA may depend on the presence of protease(s) in the culture supernatants.
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