Thesis presented December 12, 2014

Abstract:
The immune system is a set of mechanisms involving many different cell types which communicate through downstream signals mediated principally by soluble factors (i.e. cytokines) to protect the host against invading organisms and to control adequate immune responses. The identification and characterization at the cellular level of cytokine production has a huge interest for both fundamental research and clinical studies. However, the majority of techniques currently available (ELISpot, flow cytometry, microarrays, etc.) have several shortcomings including notably the assessment of multiple cytokines in relation to secreting cell phenotypic classification and/or label-free and real-time analysis of cytokine secretions at individual cell level. Hence, in this study, we developed a « cell biochip » to analyze the secretion of cytokines by individual cells (T lymphocytes) activated and cultured in vitro. The biochip is functionalized by electrochemically grafting patterns of pyrrole-conjugated cell membrane-specific and cytokine-specific antibodies and treated with Poly(ethylene glycol)thiol (Thiol-PEG) self-assembled monolayers (SAMs) to stably avoid non-specific binding of cells on the surface. A polydimethyllsiloxane (PDMS)-based microfluidic device maintained at 37°C was also developed in order to integrate all the detection assay operations in a single system. The biochip developed here allows specific and stable capture of viable and bioactive individual T cells and subsequent detection of secreted cytokines in the close vicinity of each individual cell. In this work, the detection of secreted cytokines (IL-2 and IFN-γ) was performed by fluorescence in an immunosandwich assay format. This « cell biochip » is also compatible with surface plasmon resonance imaging (SPRi), which could therefore allow expanding its functionality to enable real-time and label-free detection of multiple cytokines from individual cells. Such technique provides a very promising tool for the analysis of biomarkers and cell activity and the monitoring of immune responses.

Keywords:
Cytokine, Biochip, Cell secretion, T cells, Microfluidics, PEG