T. Urano et al., The profibrinolytic enzyme subtilisin NAT purified from Bacillus subtilis cleaves and inactivates plasminogen activator inhibitor type 1, J BIOL CHEM, 276(27), 2001, pp. 24690-24696
In this report, we demonstrate an interaction between subtilisin NAT (forme
rly designated BSP, or nattokinase), a profibrinolytic serine proteinase fr
om Bacillus subtilis, and plasminogen activator inhibitor 1 (PAI-1), Subtil
isin NAT was purified to homogeneity (molecular mass, 27.7 kDa) from a sali
ne extract of B, subtilis (natto), Subtilisin NAT appeared to cleave active
recombinant prokaryotic PAI-1 (rpPAI-1) into low molecular weight fragment
s. Matrix-assisted laser desorption/ionization in combination with time-of-
flight mass spectroscopy and peptide sequence analysis revealed that rpPAI-
1 was cleaved at its reactive site (P1-P1 ': Arg(346)-Met(347)), rpPAI-1 lo
st its specific activity after subtilisin NAT treatment in a dose-dependent
manner (0.02-1.0 nM; half-maximal effect at similar to0.1 nM), Subtilisin
NAT dose dependently (0.06-1 nM) enhanced tissue-type plasminogen activator
-induced fibrin clot lysis both in the absence of rpPAI-1 (48 +/- 1.48 at 1
nM) and especially in the presence of rpPAI-1 (78 +/- 2.0% at 1 nM), The e
nhancement observed in the absence of PAI-1 seems to be induced through dir
ect fibrin dissolution by subtilisin NAT, The stronger enhancement by subti
lisin NAT of rpPAI-1-enriched fibrin clot lysis seems to involve the cleava
ge and inactivation of active rpPAI-1, This mechanism is suggested to be im
portant for subtilisin NAT to potentiate fibrinolysis.