Role of CD2 cross‐linking in cytoplasmic calcium responses and T cell activation

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The relationship between the increase of intracellular free Ca2+ concentration ([Ca2+]i) in resting T cells after stimulation with monoclonal antibody (mAb) to CD2 (E rosette receptor) and the subsequent proliferation response was investigated. Although the combination of 9.6 plus 9-1 mAb to CD2 was both mitogenic and induced an increase in [Ca2+]i, cross-linking of an individual CD2 mAb on the cell surface induced an increase in [Ca2+]i without directly stimulating T cell proliferation. The [Ca2+]i response from cross-linking an individual mAb was not epitope dependent, since 21 of 21 mAb to CD2 were effective when cross-linked with a polyclonal goat anti-mouse Ig second step. The kinetics of calcium mobilization was highly dependent upon the procedure for cross-linking, since the binding of biotin-conjugated 9.6 mAb followed by avidin gave a large and rapid response, whereas cross-linking of 9.6 with an anti-kappa mAb, 187.1, caused a minimal response, and the cross-linking of 9.6 followed by a polyclonal goat anti-mouse Ig gave an intermediate response. In addition, ligation of CD2 by rosetting with sheep red blood cells alone was sufficient to cause increased [Ca2+]i. In functional studies only the procedures associated with minimal CD2 cross-linking induced proliferation of resting T cells in combination with interleukin (IL)2. The proliferation also required IL 1 or accessory cells. Cross-linking 9.6 on the cell surface also enhanced proliferation in the presence of phorbol myristate acetate or a CD28 mAb, 9.3, under conditions that were accessory cell independent. In contrast to the proliferation following stimulation with 9.6 plus 9-1, the combination of 9.6 plus 9-1 F(ab')2 fragments lost mitogenic activity. The 9.6 plus 9-1 F(ab')2 combination was similar to 9.6 cross-linking in that either could induce responsiveness to recombinant IL2 or CD28 mAb 9.3. The combination of 9.6 plus 9-1 F(ab')2 fragments was still able to increase [Ca2+]i in T cells with slow kinetics. Together these results suggest that the binding of mAb to CD2 under conditions that cause a slow rather than a rapid increase in [Ca2+]i is associated with T cell activation. Furthermore, they suggest that in studies of T cell activation, sheep erythrocyte rosette formation should not be used to isolate T cells since rosetting may effect [Ca2+]i.