Designing synthetic antigen-presenting cells to determine the 3D nanoenvironment of T-cell - antigen recognition

Project partner: Stefan Baudis, opens an external URL in a new window, Institute of Synthetic Chemistry, TU Wien

T-cells initiate an immune response by detecting and reacting to rare foreign antigens on the surface of antigen-presenting cells (APCs). The remarkable sensitivity and specificity of this recognition process has puzzled researchers for decades, yet a comprehensive mechanistic understanding is still lacking. This is mainly due to the complexity and dynamism of the cellular interaction, where various accessory proteins create an intricate environment around the T-cell receptor (TCR):antigen pair, and biochemical stimuli are tightly intertwined with membrane topography and mechanical forces.

Recreating T-cell antigen recognition with synthetic APCs

Recreating T-cell antigen recognition with synthetic APCs

In the WWTF Project “Designing synthetic antigen-presenting cells to determine the 3D nanoenvironment of T-cell - antigen recognition”, we will recreate the specific 3D nanoenvironment of T-cell antigen recognition by interfacing T-cells with synthetic APCs (sAPCs) that allow for reconstituting, manipulating, and quantifying key parameters. Our approach rests on three pillars: i) a DNA origami-based biointerface for the delivery of biochemical and physical cues with nanometer precision; ii) an sAPC core composed of polymer microparticles with cell-like mechanical properties, and iii) state-of-the-art fluorescence microscopy techniques to directly correlate input with output signals within live T-cell/sAPC interfaces at the single molecule level. By integrating these sophisticated experimental approaches, we aim to dissect the biochemical and physical parameters contributing to sensitized T-cell antigen recognition and obtain a quantitative description of the underlying molecular mechanisms.

Open PhD position (synthetic chemistry), opens an external URL in a new window

Open PhD and Postdoc Position (biophysics), opens an external URL in a new window