Tissue-type plasminogen activator variants with domain duplications and rearrangements

The interactions between tPA domains that are important forcatalysis are poorly understood. We have probed the functionof interdomain interactions by generating tPA variants in whichdomains are duplicated or rearranged. The proteins were expressedin a transient mammalian expression system and tested in vitrofor their ability to activate plasminogen, induce fibrinolysisand bind to a forming fibrin clot. Duplication of the heavychain domains of tPA produced enzymatically active tPA variants,many of which demonstrated similar in vitro amidolytic and fibrinolyticactivity and similar fibrin affinity to the parent molecule.Zymographic analysis of the domain duplication tPA variantsshowed one major active species for each variant. Selectionof the residues duplicated and the interdomain spacing werefound to be critical considerations in the design of tPA variantswith duplicated domains. We also rearranged the domains of tPAsuch that kringle 1 replaced the second kringle domain and viceversa. An analysis of these variants indicates that the firstkringle domain can confer fibrin affinity to a tPA variant andfunction in place of kringle 2. Therefore, in wild-type tPA,the functions of kringle 1 and kringle 2 must be dependent partiallyon their orientation within the heavy chain of the protein.The functional autonomy of the heavy and light chains of tPAis demonstrated by the activity of a tPA variant in which theorder of the heavy and light chains was reversed.