The two-signal model of lymphocyte activation twenty-one years later

Human endothelial stimulation of allogeneic T cells via a CTLA-4 independent pathway

It is accepted that T cells require at least two signals to undergo proliferation and cytokine release: an antigen dependent signal mediated via the the TCR (T cell receptor) and an antigen independent signal mediated via one or more accessory or adhesion molecules. Interaction between CD28 or CTLA-4 and the B7 co-receptors found on many antigen presenting cells (APC) is known to be essential for antigen specific (including alloantigen) expansion of T cells in vitro and in vivo. CTLA-4-Ig is a fusion protein with very high affinity for B7. It has been used in vivo to block both allograft and xenograft rejection. Most of the work investigating second signal requirement has used 'professional' APC. In view of the observations that class II positive human endothelial cells can cause direct allostimulation of resting CD4+ and CD8+ T cells, we have investigated the requirement of CTLA-4 in this response. The current studies show that the proliferative response of allogeneic CD4+ and CD8+ T cells to interferon-gamma treated HUVEC (human umbilical vein endothelial cells) is inhibited by monoclonal antibodies (mAbs) against MHC class II and class I antigens, respectively, but not by CTLA-4-Ig. In contrast, lymphocytes proliferating in response to allogeneic splenocytes are inhibited by CTLA-4-Ig. Cell surface binding studies using flow cytometry demonstrated failure of endothelial cells to bind either CTLA-4-Ig or mAbs against B7 receptors. In conclusion, different APC use different co-stimulatory signals. The possibility that this leads to different cytokine profiles needs to be investigated to further understand the role of endothelial cells in transplant rejection.

Interleukin-12 regulates the proliferation of Th1, but not Th2 or Th0, clones

Our results indicate that interleukin (IL)-12 is an important costimulator of antigen-dependent proliferation of murine Th1 clones. In addition, we demonstrate that IL-10 inhibits splenic antigen-presenting cell (APC)-dependent proliferation of Th1 clones, at least in part, via down-regulation of APC-derived IL-12. Moreover, the failure of activated B cells to provide costimulation via IL-12 accounts for their inability to support optimal proliferative responses of Th1 clones. We also show that IL-12 regulates the ability of Th1 clones to respond to IL-4 and enhances their proliferation in response to IL-2, IL-7, or IL-15. In contrast, Th2 and Th0 clones appear refractory to the effects of IL-12, on antigen-dependent or growth factor-induced proliferation.

The B7 and CD28 receptor families

Current evidence suggests that T-cell receptor (TCR) recognition of antigen bound to the major histocompatibility complex (Ag-MHC) is insufficient to lead to T-cell proliferation or effector function. For a helper T cell to produce sufficient interleukin 2 (IL-2) to allow autocrine-driven clonal expansion, there is a requirement for so-called 'co-stimulatory' or 'accessory' signals in addition to TCR ligation by Ag-MHC. The interaction of the CD28 receptor on T cells with B7 on antigen-presenting cells (APCs) supplies one such co-stimulatory signal. However, the recent discovery that CD28 and B7 are each members of larger gene families suggests that the regulation of co-stimulation is more complex than previously imagined. Here, Carl June and colleagues highlight recent advances in the understanding of the CD28 and B7 receptor families.

Induction of anergy in resting human T lymphocytes by immobilized anti-CD3 antibodies

How the T cell receptor (TcR)/CD3 complex mediates not only the induction of T cell activation but also suppressive effects like T cell anergy or apoptosis is not well understood. Here we describe a series of preincubation and restimulation experiments which demonstrate that primary stimulation of resting, unseparated human T cells with mitogenic doses of immobilized anti-CD3 antibodies induces hyporesponsiveness upon restimulation of the cells. Various costimuli can prevent this type of anergy to a variable degree if present during the preincubation period, phorbol 12-myristate 13-acetate (PMA) being the most and anti-CD4 antibody the least effective. If employed together with anti-CD3 antibody during the restimulation phase of the assay, interleukin (IL)-2, IL-4 and anti-CD28 antibody break anergy almost completely. Proliferation induced by a submitogenic dose of anti-CD3 antibody supplemented by costimulatory signals (anti-CD2, anti-CD4, anti-CD28, IL-2, IL-4 or PMA) does not result in hyporesponsiveness. Taken together, these results support a modified view of the two-signal model for T cell activation according to which anergy induction in resting T cells occurs if primary proliferation is induced by high density triggering of the TcR/CD3 complex in the absence of accessory signals. We discuss possible implications of these findings for the induction of peripheral tolerance.

The maintenance of self-tolerance

Two signal models for lymphocyte activation build on the Talmage/Burnet concept that receptor diversity is generated within the immune system by a random process, and that individual lymphocytes carry a single receptor on their surface that determines their specificity. Such models cannot use a concept of signal one anergy (or deletion) to explain the maintenance of self-tolerance in terms of the Bretscher/Cohn theory if they abandon the concept of associative recognition.

An improved procedure for the in vitro expansion of human T-lymphocyte clones for mutant analysis

Assays detecting mutants present in human peripheral blood T-lymphocytes have been developed to monitor the population for somatic mutations. In order to investigate the nature of the mutations, colonies are further expanded in vitro by repeated lectin stimulation. To characterise fully each mutant clone, sufficient cells (approximately 10(7)) must be available for several molecular and biochemical techniques to be employed. These techniques, and their importance to the assay for population monitoring, are discussed briefly. We report here that the expansion of mutant colonies to approximately 10(7) cells by repeated lectin stimulation is not effective for all T-cell clones but that an alternative "lectin free" expansion method has enabled us to expand all the clones tested from a variety of normal donors and other individuals of interest.

Non-antigen signals for B-cell growth and differentiation to antibody secretion

Recently, significant progress had been made in understanding the T-B lymphocyte interactions that control humoral immunity. This review highlights experiments that demonstrate a central role for interactions between T-cell-B-cell-activating molecule (CD40 ligand) expressed on T cells and CD40 on B cells in B-cell activation and immunoglobulin isotype switching, both in vitro and in vivo.

Immune discrimination of self and nonself: a unified theory for the induction of self tolerance among thymocytes and mature peripheral T cells

A comprehensive model of immunological self tolerance is described which is based on the unique tenet that interactions between T cell antigen receptors (TcR) and specific MHC ligands may vary in efficacy (the ability of an MHC ligand to catalyze TcR-mediated activation). Based on this postulate, two interrelated mechanisms are described to explain how self tolerance is induced among immature thymocytes and mature peripheral T cells, respectively. In the thymus, APC apparently present a diverse array of self MHC ligands (complexes of self peptides and MHC glycoproteins) to clonotypic T cells. According to the first mechanism, immature thymocytes that efficaciously bind specific MHC ligands undergo TcR-mediated activation and programmed cell death whereas those that nonefficaciously bind MHC ligands are not activated and thereby escape negative selection. The latter T cells undergo positive selection and eventually constitute the mature T cell repertoire. This model of thymic selection ensures that interactions of mature T cells with self in peripheral tissues are predominantly nonefficacious. According to the second mechanism, clonotypically diverse T cells and individual APC comprise an integrative unit that measures antigenic complexity of the local environment as a basis to enable or disable immunogenic responses by mature T cells. T cells recognize efficacious MHC ligands (E) via the TcR/CD3 complex but are also able to detect nonefficacious MHC ligands (N) by conserved signal transduction pathways that are initiated upon cell-cell contact with APC. Clonotypic T cells relay E or N signals by conserved feedback pathways back to APC. APC integrate and compare large numbers of E or N signals to derive an E/N ratio.(ABSTRACT TRUNCATED AT 250 WORDS)

Inhibition of chronic relapsing experimental allergic encephalomyelitis in the Biozzi AB/H mouse

Chronic relapsing experimental allergic encephalomyelitis (CREAE) can be reproducibly induced in Biozzi AB/H mice following injection of spinal cord homogenate (SCH) emulsified in complete Freund's adjuvant (CFA). Active clinical disease is associated with mononuclear cell infiltration of the central nervous system (CNS), mainly the spinal cord. Whole brain homogenate (BH), however, failed to induce clinical or histological disease. In contrast, substituting sciatic nerve homogenate in the inoculum induced experimental allergic neuritis (EAN). Clinical disease was manifest earlier (13.1 +/- 0.3 days) than CREAE (16.2 +/- 1.4) and was accompanied by mononuclear infiltration of the peripheral nervous system (PNS). In comparison to CREAE induction, pretreating mice with SCH or BH in incomplete Freund's adjuvant (IFA) suppressed the development of SCH-induced disease. The BH was more tolerogenic than the SCH and this hyporesponsiveness was CNS antigen-specific as PNS tissue failed to inhibit the course of CREAE. Tolerance induced by pretreatment with SCH or BH in IFA was reversed by a single injection of 200 mg/kg cyclophosphamide, 2 days prior to CREAE induction. This suggests that IFA-induced hyporesponsiveness is actively regulated, possibly via the action of suppressor cells. In addition, treatment with neuroantigens in IFA appears to be mainly afferent acting as it serves to prevent initial disease induction. This treatment after immunization for CREAE, however, fails to prevent disease progression. Furthermore, treatment with CNS antigens emulsified in IFA during the post-acute remission stage appeared to synchronize and induce (32 +/- 1 days) the onset of clinical relapse, compared with untreated controls (41 +/- 5 days). This indicates that such IFA treatment has minimal value in controlling an ongoing immune disease of the CNS.

An hypothesis to explain why cell-mediated immunity alone can contain infections by certain intracellular parasites and how immune class regulation of the response against such parasites can be subverted

Cells with a low density of parasite-specific antigens on their surface are postulated to be susceptible to a cell-mediated attack but not to effector mechanisms normally activated following the binding of specific antibody to the infected cell. It is further postulated that such infected cells normally induce a cell-mediated response, and that cells infected with slow-growing intracellular parasites have a low density of parasite-specific antigens on their surface. Despite these general postulates, cell-mediated immunity is not invariably induced following natural infection by certain slow-growing parasites, such as those responsible for leprosy, tuberculosis, and the leishmaniases, and antibody can be induced that is exclusive of a strong, cell-mediated response. It is proposed that certain events in such cases subvert the normal regulatory processes that control the class of immunity induced. In these cases, the parasite-infected cells, bearing a low representation of parasite antigens, induce antibody even though they are not susceptible to antibody-dependent effector mechanisms, and so they are not eliminated. In this case, chronic infection and uncontrolled growth of the parasite occurs, often with fatal consequences.