Abstract
By 1980 it was obvious that to more fully understand adaptive immunity, one needed to somehow reduce the tremendous complexity of antigen recognition by T cell populations. Thus, there were two developments that resulted in a paradigm shift in immunology, one being the generation of monoclonal antibodies (MoAbs), and the other the development of monoclonal functional antigen-specific T cell lines. For the first time, the cellular reagents became available to ask new questions as to how individual cells comprising the complex cell populations recognize and respond to changes in their molecular environments. The first successful generation of monoclonal T cells depended upon the understanding that antigen renders cells responsive to the antigen non-specific T cell growth factor that came to be termed interleukin-2 (IL-2), which could then be used in propagating large numbers of the progeny of single cells, which in turn could then be used for molecular analyses. Monoclonal functional human T cells were used to immunize mice to generate clone-specific (clonotypic) MoAbs, which then permitted the first biochemical characterizations of the antigen recognition elements of the T cell antigen receptor (TCR) complex. Moreover, the use of monoclonal cytolytic and helper/inducer human T cell clones essentially proved that the T cell-specific molecules T4 (CD4) and T8 (CD8) functioned as accessory molecules in antigen recognition by defining MHC class II or class I restriction respectively. As well, the expression of the T3 (CD3) molecules, found to be common to all T cells, were shown further to be obligatory for functional antigen-specific T cell signaling. The monoclonal IL-2-dependent T cells were also instrumental in the isolation and purification of the IL-2 molecule to homogeneity, the first interleukin molecule to be identified and characterized. These advances then led to the generation of pure radiolabeled IL-2 molecules that were used to identify the first interleukin cellular receptors, and as well the generation of the first MoAbs reactive with both IL-2 and IL-2 receptors. All of these advances led subsequently to the isolation of the first cDNA clones recognizing one of the two chains comprising the T cell antigen recognition elements (β-chain), as well cDNA clones encoding IL-2. Accordingly, armed with all of these unique cellular and molecular reagents, it was possible to determine that antigen triggering of the TCR complex initiates IL-2 production and IL-2 receptor expression, which in turn initiate the T cell clonal proliferative expansion, envisioned by Burnet in his formulation of the clonal selection theory. Thus, adaptive immunity receives antigen-specific activation signals from the environment and turns them into antigen non-specific endogenous action signals.
Highlights
By 1980 it was obvious that to more fully understand adaptive immunity, one needed to somehow reduce the tremendous complexity of antigen recognition by T cell populations
Abbreviations: AFC, antibody forming cell; anti-Tac, monoclonal antibodies (MoAbs) reactive with IL-2Rα chain; APC, antigen-presenting cell; CATSUP, con-A T cell supernatant; Cluster of Differentiation (CD), cluster of differentiation; CTL, cytotoxic T lymphocyte; cytotoxic T lymphocyte lines (CTLL), cytotoxic T lymphocyte line; Epstein– Barr virus (EBV), Epstein–Barr virus; HPLC, high pressure liquid chromatography; Ia, immuneassociated antigen (MHC class II); IEF, isoelectric focusing; IL, interleukin; LAF, lymphocyte activating factor (IL-1); LPS, lipopolysaccharide; lymphocyte conditioned medium (Ly-CM), lymphocyte conditioned media; mixed leukocyte cultures (MLC), mixed leucocyte culture; PBMC, peripheral blood mononuclear cell; PHA, phytohemagglutinin; RWAGE, ragweed antigen E; SDSPAGE, SDS polyacrylamide gel electrophoresis; T3, CD3; T4, CD4; T8, CD8; TCGF, T cell growth factor; TCR, T cell antigen receptor complex; the clonotypic (Ti), clonotypic TCR; TRF, T cell replacing factor; TSF, T cell stimulatory factor; TT, tetanus toxoid
We presented our findings together at the Second International Lymphokine Workshop that was held in Ermatingen, Switzerland, in May 1979, and for the first time it was appreciated by all investigators present that by using the TCGF bioassay it was possible to discriminate between monocyte/macrophagederived LAF and lymphocyte-derived TCGF (Oppenheim et al, 1980)
Summary
By 1980 it was obvious that to more fully understand adaptive immunity, one needed to somehow reduce the tremendous complexity of antigen recognition by T cell populations. THE MOLECULAR NATURE OF THE TCR COMPLEX Having developed and propagated IL-2-dependent human T4+ and T8+ cytolytic T cell clones, Reinherz was in a unique position to identify the molecules responsible for T cell antigen recognition.
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