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  • Title: Accessory cell independent proliferation of human T4 cells stimulated by immobilized monoclonal antibodies to CD3.
    Author: Geppert TD, Lipsky PE.
    Journal: J Immunol; 1987 Mar 15; 138(6):1660-6. PubMed ID: 3102594.
    Abstract:
    The capacity of the monoclonal antibodies (Mab) 64.1 and OKT3 directed at CD3 molecules to induce T4 cell proliferation and interleukin 2 (IL 2) production was examined. Each was tested in soluble form or was immobilized by adhering it to the wells of plastic microtiter wells. Soluble anti-CD3 did not induce proliferation of accessory cell (AC)-depleted T4 cells. In contrast, immobilized anti-CD3 induced T4 cell IL 2 production and proliferation in the complete absence of AC. When T4 cells were stimulated with high density immobilized anti-CD3, responses did not require AC, IL 2, or Mab directed at the Tp44 molecule (9.3). In contrast, responses stimulated by lower densities of immobilized anti-CD3 were enhanced by IL 2, AC, and 9.3, and with even lower densities of immobilized anti-CD3 proliferation, required these additional signals. A variety of other immobilized Mab directed at T cell surface proteins including class I major histocompatibility complex encoded gene products, CD2, CD5, 4F2, and Tp44, did not induce proliferation even in the presence of IL 2. Anti-CD4 Mab (66.1) inhibited immobilized anti-CD3-stimulated T4 cell responses, with a greater degree of inhibition noted when lower densities of immobilized anti-CD3 were used to stimulate T4 cells. The data demonstrate that stimulation of T4 cells by anti-CD3 is completely AC independent when the antibody is immobilized onto a surface. Furthermore, the results indicate that maximal stimulation requires multiple interactions with anti-CD3 without internalization of the CD3 molecule. The observation that additional signals are required to support T4 cell proliferation when the density of immobilized anti-CD3 is diminished suggests that these are necessary only when insufficient interactions with the CD3 molecule have occurred to transmit a maximal activation signal to the cell. Finally, the results indicate that anti-CD4 provides a direct inhibitory signal to the T4 cell, the effect of which is inversely proportional to the intensity of the activation signal.
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