P. Bringmann et al., STRUCTURAL FEATURES MEDIATING FIBRIN SELECTIVITY OF VAMPIRE BAT PLASMINOGEN ACTIVATORS, The Journal of biological chemistry, 270(43), 1995, pp. 25596-25603
The distinguishing characteristic of vampire bat (Desmodus rotundus) s
alivary plasminogen activators (DSPAs) is their strict requirement for
fibrin as a cofactor. DSPAs consist of structural modules known from
urokinase (u-PA) and tissue-type plasminogen activator (t-PA) such as
finger (F), epidermal growth factor (E), kringle (K), and protease (P)
, combining to four genetically and biochemically distinct isoenzymes,
exhibiting the formulas FEKP (DSPA alpha 1 and alpha 2) and EKP and K
P (DSPA beta and DSPA gamma). Only DSPA alpha 1 and alpha 2 bind to fi
brin. All DSPAs are single-chain molecules, displaying substantial ami
dolytic activity. In a plasminogen activation assay, all four DSPAs ar
e almost inactive in the absence of fibrin but strongly stimulated by
fibrin addition. The catalytic efficiency (k(cat)/K-m) of DSPA alpha(1
) increases 10(5)-fold, whereas the corresponding value of t-PA is onl
y 550. The ratio of the bimolecular rate constants of plasminogen acti
vation in the presence of fibrin versus fibrinogen (fibrin selectivity
) of DSPA alpha 1, alpha 2, beta, gamma, and t-PA was found to be 13,0
00, 6500, 250, 90, and 72, respectively. Whereas all DSPAs are therefo
re more fibrin dependent and fibrin selective than t-PA, the extent de
pends on the respective presence of the various domains. The introduct
ion of a plasmin-sensitive cleavage site in a position akin to the one
in t-PA partially obliterates fibrin cofactor requirement. Fibrin dep
endence and fibrin selectivity of DSPAs are accordingly mediated by fi
brin binding, which involves the F domain, as yet undefined determinan
ts within the K and P domains, and by the absence of a plasmin-sensiti
ve activation site. These findings transcend the current understanding
of fibrin-mediated stimulation of plasminogen activation: in addition
to fibrin binding, specific protein-protein interactions come into pl
ay, which stabilize the enzyme in its active conformation.