Construction of polylysine dendrimer nanocomposites carrying nattokinase and their application in thrombolysis.

Thrombotic disease has become one of the leading causes of mortality among humans globally. Nattokinase (NK), a novel thrombolytic agent, has attracted the attention of researchers. However, NK is a serine protease that is vulnerable to environmental effects resulting in its inactivation. In this study, polylysine dendrimer (PLLD) was synthesized through divergence-convergence method, and a series of NK/PLLD nanocomposites with different molar ratio was prepared. In addition, NK was successfully incorporated into the cores of PLLD G4 through hydrogen bonds and van der Waals forces. In NK/PLLD nanocomposites, when the molar ratio of NK to PLLD is 1:30, a high relative enzyme activity level (up to 117%) was achieved and was more stable at different temperatures and pH than free NK. In in vitro thrombolysis experiment, compared with free NK, NK/PLLD nanocomposites could control the release of NK. The thrombolysis rate of NK/PLLD nanocomposites reached 50% at 12 h, which can effectively avoid other complications such as hemorrhage. Interestingly, NK/PLLD nanocomposites with positive charge can penetrate into the negatively charged thrombus through electrostatic interaction, thus providing a good thrombolytic effect. Hemolysis and MTT experiments show that PLLD nanomaterials can serve as ideal carriers of protein drugs.