Current Directions in Biomedical Engineering (Sep 2020)

Protein Adsorption Hysteresis and Transient States of Fibrinogen and BMP-2 as Model Mechanisms for Proteome-Binding to Implants

  • Jennissen H. P,
  • Dohle Daniel S.,
  • Zmbrink Thomas,
  • Meißner Michael

DOI
https://doi.org/10.1515/cdbme-2020-3046
Journal volume & issue
Vol. 6, no. 3
pp. 180 – 184

Abstract

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Protein adsorption studies returned to the focus of medical therapeutics, when it was found that up to 2500 non-plasma proteins adsorbed to hip implants during arthroplastic surgery, challenging peri-implant healing models. Questions have re-emerged as to the implications of uncontrolled protein unfolding after adsorption. In past studies on the cooperativity of protein binding we discovered protein adsorption hysteresis, a thermodynamically irreversible process. The present precursory study comprises real-time kinetic (TIRF-Rheometry) and equilibrium (125I-tracer ) studies on the hysteretic binding of fibrinogen and rhBMP-2 to titanium and glass surfaces via transient states. Thermodynamic constants (GOn), as well as kinetically derived (K'A ) and hysteresis derived (K'HA ) association constants in the range of 106 to 1012 M-1lead to a consistent picture.

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