Ein Schwerpunktprogramm der DFG

¹ DotTox


  • ¹ Prof. Dr. Eva-Kathrin Sinner
    Max-Planck-Institut für Polymerforschung
    Mainz
  • ¹ Prof. Dr. Joachim Wegener
    Institut für Biochemie
    Westfälische Wilhelms-Universität Münster
    Münster
1 Phase 1: until Decembre 2010
2 Phase 2: since January 2011

Cytotoxicty of Quantum-Dot Nanoparticles in Contact to Animal Cells: Internalization, targeting and compartment-specific cytotoxicty

It is the major objective of this two-party collaborative research project to systematically unravel the detailed cytotoxic profile of quantum dot CdSe core/shell nanoparticles (NPs) with variable surface properties in contact to animal cells. We will focus on epithelial and endothelial cell species which cover all body surfaces and are most likely to encounter NPs in real life scenarios. The impact of NPs on cell viability and cell dynamics will be studied upon extracellular NP exposure but also after the NPs have been introduced into the cytoplasm by membrane electroporation. To target NPs from the cytoplasm to the nucleus or the mitochondria, NPs will be prepared with peptide motifs on their surface that are know to serve as a compartment-specific localization sequence. The cellular response to a site-specific NP exposure will be studied by means of time-resolved impedance spectroscopy performed in various modes. This non-invasive approach reads the electrical impedance of the cells when they are grown on thin-film electrodes and reports primarily on cell dynamics as universal indicator for cell viability on time scales from milliseconds to weeks. We will also study the impact of site-specific NP exposure on cell differentiation by using the murine progenitor cell line P19 as a model.