Mechanisms of transmembrane signalling in human T cell activation

Several monoclonal antibodies directed against a number of T cell surface molecules are used to elucidate the role of these molecules (cell surface molecules) in T cell activation. The activation of T cells via these molecules are both antigen-dependent (CD3/TcR complex) and antigen-independent. Irrespective of their antigen-dependency, these monoclonal antibodies activate T cells by a classical signal transduction pathway, in which the binding of monoclonal antibodies to their cell surface receptors leads to activation of phospholipase C resulting in the the depolarization of plasma membrane, hydrolysis of IP2 and IP3 and DAG, the second messengers. IP3 leads to mobilization of intracellular calcium to contribute to an increase in [Ca⁺⁺]_i, whereas DAG causes activation and translocation of PKC and an increasing apparent affinity for Ca⁺⁺. The role of IN in the mobilization of intracellular calcium is emerging. In addition, influx of extracellular calcium also contributes to increase in [Ca^–+];. The increase in [Ca⁺⁺]; following activation via some T cell surface antigen is predominantly due to intracellular mobilization of Ca^–+ (e.g. CD3/TcR complex), whereas activation via other T cell surface antigen, the increase in [Ca^+–]_i is almost entirely due to an influx of extracellular calcium (e.g. CD5 antigen). All these molecules activate autocrine system of T cell growth, namely IL-2 production, IL-2 receptor expression and T cell proliferation.