4.6 Article

Polyphosphate nanoparticles enhance the fibrin stabilization by histones more efficiently than linear polyphosphates

期刊

PLOS ONE
卷 17, 期 4, 页码 -

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PUBLIC LIBRARY SCIENCE
DOI: 10.1371/journal.pone.0266782

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资金

  1. Ministry of Innovation and Technology in Hungary [TKP2021-EGA-24]
  2. Hungarian National Research, Development and Innovation Office [137563]
  3. UNKP Scholarship of the Ministry of Innovation and Technology, Hungary

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This study aims to compare the effects of linear and nanoparticulate polyphosphates, as well as their combinations with relevant NET components, on fibrin formation, structure, and lysis. The interaction between PolyP and histone was found to be a stronger regulator of fibrin formation and lysis compared to its interaction with DNA. Additionally, PolyP nanoparticles enhanced the stabilizing effects of histone on thrombus more effectively than linear PolyP.
IntroductionBeyond the three-dimensional fibrin network, the mechanical and lytic stability of thrombi is supported by the matrix of neutrophil extracellular traps (NETs) composed of polyanionic DNA meshwork with attached proteins including polycationic histones. Polyphosphates represent another type of polyanions, which in their linear form are known to enhance the fibrin stabilizing effects of DNA and histones. However, in vivo polyphosphates are also present in the form of nanoparticles (PolyP-NP), the interference of which with the fibrin/NET matrix is poorly characterized. AimsTo compare the effects of linear and nanoparticulate polyphosphates, and their combinations with relevant NET components (DNA, histone H3) on fibrin formation, structure, and lysis in in vitro assays focusing on histone-polyphosphate interactions. MethodsTransmission electron microscopy and dynamic light scattering for stability of the PolyP-NP preparations. Turbidimetry for kinetics of fibrinogen clotting by thrombin and fibrin dissolution by tissue-type plasminogen activator/plasminogen. Scanning electron microscopy for fibrin structure. Surface plasmon resonance for strength of histone-PolyP interactions. ResultsBoth linear PolyP and PolyP-NP accelerated the fibrin formation and slowed down its dissolution and these effects were strongly dependent on the number of individual PolyP particles and not on their size. Addition of DNA did not modify significantly the PolyP-NP effects on fibrin formation and lysis. Both linear and nanoparticulate PolyP counteracted the effect of histone in the acceleration of fibrinogen clotting by thrombin. PolyP-NP, but not linear PolyP enhanced the prolongation of lysis time in fibrin containing histone and caused more pronounced thickening of the fibrin fibers than the linear form. Finally, PolyP-NP bound weaker to histone than the linear form. ConclusionsThe interaction of PolyP with histone was a stronger modulator of fibrin formation and lysis than its interaction with DNA. In addition, the PolyP nanoparticles enhanced the thrombus stabilizing effects of histone more effectively than linear PolyP.

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