Chemical Inhibitors when Timing Is Critical: A Pharmacological Concept for the Maturation of T Cell Contacts

Stimulus dependence of the action of small-molecule inhibitors in the CD3/CD28 signalling network

Cells in the body are exposed simultaneously to a multitude of various signals. Inside a cell, molecular signalling networks integrate this information into a physiologically meaningful response. Interestingly, in the cellular testing of drug candidates, this complexity is largely ignored. Compounds are tested for cells that are challenged with one stimulus only. The activation of T lymphocytes through engagement of the T cell receptor (TCR)-CD3 complex and CD28 coreceptor is a prominent example for a cellular response that depends on the integration of signals. We investigated the cellular response characteristics of this network at different strengths of receptor and coreceptor activation. A novel cellular microarray-based approach, in which various combinations of antibodies directed against the CD3 complex and CD28 were spotted, was employed for analysing the stimulus dependence of activation of the transcription factor NFAT and actin reorganisation. For both responses, quantitative differences in inhibitor activity were observed. Remarkably, for IL-2 expression, which was detected by standard ELISA, low doses of the Src-family kinase inhibitor PP2 strongly potentiated IL-2 expression at high-level, but not at low-level, CD28 co-engagement. Therefore, for a physiologically highly relevant signalling network, the cellular response might vary qualitatively with only quantitative variations of a stimulus. This level of complexity should be considered in early cellular drug testing.

A novel ZAP-70 dependent FRET based biosensor reveals kinase activity at both the immunological synapse and the antisynapse

Many hypotheses attempting to explain the speed and sensitivity with which a T-cell discriminates the antigens it encounters include a notion of relative spatial and temporal control of particular biochemical steps involved in the process. An essential step in T-cell receptor (TCR) mediated signalling is the activation of the protein tyrosine kinase ZAP-70. ZAP-70 is recruited to the TCR upon receptor engagement and, once activated, is responsible for the phosphorylation of the protein adaptor, Linker for Activation of T-cells, or LAT. LAT phosphorylation results in the recruitment of a signalosome including PLCgamma1, Grb2/SOS, GADS and SLP-76. In order to examine the real time spatial and temporal evolution of ZAP-70 activity following TCR engagement in the immune synapse, we have developed ROZA, a novel FRET-based biosensor whose function is dependent upon ZAP-70 activity. This new probe not only provides a measurement of the kinetics of ZAP-70 activity, but also reveals the subcellular localization of the activity as well. Unexpectedly, ZAP-70 dependent FRET was observed not only at the T-cell -APC interface, but also at the opposite pole of the cell or "antisynapse".

Label-free characterization of cell adhesion using reflectometric interference spectroscopy (RIfS)

Reflectometric interference spectroscopy (RIfS) is a label-free, time-resolved technique for detecting interactions of molecules immobilized on a surface with ligands in solution. Here we show that RIfS also permits the detection of the adhesion of tissue culture cells to a functionalized surface in a flow system. Interactions of T cells with other leukocytes or epithelial cells of blood vessels are crucial steps in the regulating immune response and inflammatory reactions. Jurkat T cell leukemia cells rapidly attached to a transducer functionalized with a monoclonal antibody directed against the T cell receptor (TCR)/CD3 complex, followed by activation-dependent cell spreading. RIfS curves were obtained for the Jurkat derivative JCaM 1.6 (which lacks the key signaling protein Lck), cells preincubated with cytochalasin D (an inhibitor of actin polymerization), and for surfaces functionalized with an antibody directed against the coreceptor CD28. These curves differed with respect to the maximum signal and the initial slope of the increase in optical thickness. The testing of chemical inhibitors, cell surface molecules and gene products relevant to a key event in T cell immunity illustrates the potential of label-free techniques for the analysis of activation-dependent cell-surface contacts.

One-step analysis of protein complexes in microliters of cell lysate

We present 'mix and measure' procedures for the analysis of protein complexes in microliters of crude human and mouse cell lysates using fluorescence correlation and crosscorrelation spectroscopy. We labeled interacting endogenous proteins by indirect immunofluorescence with all primary and secondary reagents added in one step. Especially for the screening of compounds interfering with interactions that depend on signaling-induced posttranslational modifications, the approach represents a major advance over existing protocols.

Features of Selective Kinase Inhibitors

Small-molecule inhibitors of protein and lipid kinases have emerged as indispensable tools for studying signal transduction. Despite the widespread use of these reagents, there is little consensus about the biochemical criteria that define their potency and selectivity in cells. We discuss some of the features that determine the cellular activity of kinase inhibitors and propose a framework for interpreting inhibitor selectivity.