Label-free biosensors are capable of monitoring cellular responses to different compounds and stimuli. We have experience in for example B cell stimulation and natural compound (green tea polyphenol) treatment of mammalian cells monitored by label-free techniques. 
Collaboration partners: Eötvös Lóránd University, Semmelweis University, Budapest University of Technology and Economics
 

EGCG review
Diversified effects of green tea polyphenol epigallocatechin gallate (EGCg). Our group focuses on those
experiments which reveal the EGCg's influence on cell adhesion, movement and viability.


PLL PEG EGCG
Our laboratory tested green tea polyphenol EGCg treated coatings on cancer cell adhesion by label-free
Epic BT biosensor. A 384-well plate used in the 
experiment is also shown, together with the manipulation
stepsin a typical 
well (right scheme).Typical experimental curves are plotted (bottom left corner) for RGD
(Arginylglycylaspartic acid) displaying coatingand 500 μg/ml 
EGCg concentration. 


ECHISTATIN
Schematic illustration of the working principle of the measurement of integrin–ligand interactions by detecting cell
adhesion with the Epic BT biosensor. The bottom of the biosensor wells is covered with a synthetic polymer layer
displaying the integrin ligands. Ligand molecules added to the cell suspensions block integrins on the surface of
the adhering 
cells, therefore weaken the cell adhesion on the ligand displaying sensing surfaces. 


B-cell
Experimental setup to perform real-time measurement of dynamic mass redistribution (DMR) using B-cell
lines (A); and schematic illustration of the 
principle of DMR detection (B). After baseline reading, the
receptors were 
ligated with the different antibodies. The shift of resonant wavelength 
relative to the baseline value (wavelength shift) was recorded in picometers.


Holomonitor
3D image of cells taken by Holomonitor holographic transmission microscope.  





Relevant publications:
Peter et al. Biophysical characteristics of proteins and living cells exposed to the green tea polyphenol epigallocatechin-3-gallate (EGCg): review of recent advances from molecular mechanisms to nanomedicine and clinical trials. European Biophysics Journal, 2017

Peter et al. Green tea polyphenol tailors cell adhesivity of RGD displaying surfaces: multicomponent models monitored optically. Scientific Reports, 2017

Szekacs et al. Receptor specific adhesion assay for the quantification of integrin–ligand interactions in intact cells using a microplate based, label-free optical biosensor. Sensors and Actuators B: Chemical, 2017


Kurucz et al. Label-free optical biosensor for on-line monitoring the integrated response of human B cells upon the engagement of stimulatory and inhibitory immune receptors. Sensors and Actuators B: Chemical, 2017