Recombinant immunoreceptors are modularily composed of extracellular antigen binding and intracellular signalling domains that are preferentially derived from CD3z or FceRIg. The impact of the signalling domain on the stability of immuoreceptor expression and function is not completely understood. To address this issue, we generated and expressed a panel of recombinant z-and g-chain immunoreceptors, respectively, in human peripheral blood T cells. The expression level of z-chain immunoreceptors in human T cells is significantly lower than those of the homologous gchain receptors. Low z-chain receptor expression in peripheral T cells is because of the intracellular signalling domain and independent of the FceRIg or CD3z transmembrane region. Expression of both receptors decreases upon prolonged cultivation. Shortly after receptor engraftment, target cell lysis and induction of IFN-g secretion are mediated with similar efficiency by z-and g-chain immunoreceptors. Upon prolonged propagation, however, T-cell activation mediated by z-chain immunoreceptors is more efficient than by g-chain receptors, indicating that the initial high expression level of g-chain immunoreceptors compensates its lower activation capacity. Consequently, g-chain immunoreceptors exhibit a higher threshold value for specific activation and are more pronouncedly inhibited by soluble ligand antigen compared to the homologous z-chain receptor. These findings have substantial consequences for the design of recombinant immunoreceptors for use in adoptive immunotherapy.
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