Scientific Reports (Mar 2024)

A new class of polyphenolic carbosilane dendrimers binds human serum albumin in a structure-dependent fashion

  • Marika Grodzicka,
  • Sylwia Michlewska,
  • Adam Buczkowski,
  • Szymon Sekowski,
  • Cornelia E. Pena-Gonzalez,
  • Paula Ortega,
  • Francisco Javier de la Mata,
  • Janusz Blasiak,
  • Maria Bryszewska,
  • Maksim Ionov

DOI
https://doi.org/10.1038/s41598-024-56509-0
Journal volume & issue
Vol. 14, no. 1
pp. 1 – 9

Abstract

Read online

Abstract The use of dendrimers as drug and nucleic acid delivery systems requires knowledge of their interactions with objects on their way to the target. In the present work, we investigated the interaction of a new class of carbosilane dendrimers functionalized with polyphenolic and caffeic acid residues with human serum albumin, which is the most abundant blood protein. The addition of dendrimers to albumin solution decreased the zeta potential of albumin/dendrimer complexes as compared to free albumin, increased density of the fibrillary form of albumin, shifted fluorescence spectrum towards longer wavelengths, induced quenching of tryptophan fluorescence, and decreased ellipticity of circular dichroism resulting from a reduction in the albumin α-helix for random coil structural form. Isothermal titration calorimetry showed that, on average, one molecule of albumin was bound by 6–10 molecules of dendrimers. The zeta size confirmed the binding of the dendrimers to albumin. The interaction of dendrimers and albumin depended on the number of caffeic acid residues and polyethylene glycol modifications in the dendrimer structure. In conclusion, carbosilane polyphenolic dendrimers interact with human albumin changing its structure and electrical properties. However, the consequences of such interaction for the efficacy and side effects of these dendrimers as drug/nucleic acid delivery system requires further research.

Keywords