Growth inhibition of human T cells by antibodies recognizing the T cell antigen receptor complex.

Abstract

Monoclonal antibodies that bind to the T cell MHC-antigen recognition complex (anti-T3 or anti-Ti) are known to either mimic ligand binding and activate T cells or block ligand binding, leading to an inhibition of T cell activation. In the present experiments, we demonstrate a direct inhibitory effect on the growth of human T cells by anti-T3 or anti-Ti antibodies. The proliferation of human peripheral blood T cells preactivated by exposure to PHA was inhibited in a specific manner by anti-T3. Colony formation in soft agar by REX cells, a leukemic cell line of early T cell phenotype, was completely inhibited by anti-T3 or anti-Ti antibodies, whereas isotype-matched antibodies to a variety of other T cell markers had no effect. Growth of REX cells in suspension culture was not affected by anti-T3 or anti-Ti. A cell line, T3.N1, was established from an agar colony of anti-T3-resistant REX cells. T3.N1 was phenotypically identical to REX except for failure to express any detectable T3 or Ti surface antigen. T3.N1 colony formation in soft agar was not inhibited by anti-T3 or anti-Ti. There was no rise in [Ca2+]i of T3.N1 cells after anti-T3 or anti-Ti exposure. These results indicate that in addition to the well-known positive regulatory effects of ligand binding to the T3/Ti complex, T3/Ti binding can also result in a down-regulatory signal for human T cell growth.