Tissue-type plasminogen activator: variants and crystal/solution structures demarcate structural determinants of function

NMR and crystal structures of many components of tissue-type plasminogen activator (t-PA) are now available: the finger-EGF pair and the kringle-2 domain structures have been solved, as have the proteolytic domains of vampire bat PA and human t-PA in two-and single-chain forms. These structures confirm the trypsin-like arrangement of the proteolytic domain of t-PA and show how surface loops near the catalytic centre contribute to the narrow specificity of PPA. Together with mutational experiments, they identify the Lys156 sidechain as a cause of the amidolytic activity of single-chain t-PA, as it can provide a substitute salt bridge partner for Asp194 in the absence of the Ile16 N terminus of the two-chain form. These new findings provide new ideas for the design of PA variants with improved therapeutic properties. (C) Current Biology Ltd ISSN 0959-440X.