Mechanisms of fibrinogen–acebutolol interactions: Insights from DSC, CD and LS

The complex formed due to the interaction of the amphiphilic betablocker acebutolol with fibrinogen in a buffer solution (50 mN glycine, pH of 8.5) has been investigated using a multipronged physicochemical approach. Differential scanning calorimetry measurements of the complexes have shown no reversibility of thermal denaturation as indicated by the three observed peaks and the opposite role that acebutolol plays in the folding different domains of the fibrinogen molecule and the stability of such domains. While circular dichroism measurements have revealed that interaction of acebutolol with fibrinogen affects the protein secondary structure to a different extent depending on the temperature and drug concentration, dynamic light scattering analysis showed evidence for protein aggregation mainly to tetramers and dimers.

Figure optionsDownload as PowerPoint slideResearch highlights▶ At low concentrations acebutolol promotes stability of D fragments of fibrinogen. ▶ At middle concentrations, acebutolol decrease the stability of D fragments, resulting in tetramer formations. ▶ At high concentrations of acebutolol changes in D and C fragments, culminated in the disaggregation of tetramers into dimers.