The role of the T cell receptor in positive and negative selection of developing T cells

Role of apoptosis in biology and pathology: resistance to apoptosis in colon carcinogenesis

The overview of apoptosis presented here emphasizes cell deletion in the immune system, with particular reference to T- and B-lymphocyte development, and the in vivo and in vitro senescence of human neutrophils. Some biochemical criteria that are used to identify apoptotic cells are described. Pitfalls in using agarose gel electrophoresis as the sole method for the identification of apoptotic cells are discussed. There are multiple modes of cell death that can be identified at the morphologic level. Thus the central role of microscopic methods, and in particular, electron microscopy, as an important tool in the study of cell death mechanisms, is presented. Apoptosis has a protective role against disease and could, a priori, have an important role in either the initiation or progression of cancer. Two paradoxes concerning the relationship of tumor aggressiveness at the clinical level to mitotic activity have been explained by an evaluation of apoptotic index. In the first case, basal cell carcinomas grow slowly but show a high rate of mitosis. Here, the apoptotic rate is quite high, but just below the mitotic rate, thereby accounting for the slow rate of growth. A second instance is follicular lymphoma, which has a low rate of mitosis that is less than that described for reactive germinal centers. However, apoptosis is markedly reduced in follicular lymphomas compared with that seen in reactive germinal centers, thus providing an explanation for the progressive growth of the follicle. We present a brief description of recent work from our laboratory that indicates that apoptosis may play an important role in colon carcinogenesis. We have shown that sodium deoxycholate, the particular bile salt present in highest concentration in the colon, induces apoptosis in the goblet cells of the human colonic mucosa in an in vitro assay. The intriguing finding is that cells of the normal-appearing mucosa of colon cancer patients are resistant to bile salt-induced apoptosis. This suggests a novel hypothesis about the etiologic role of bile salts in colon cancer. The chronic presence of bile salts that accompany a high-fat diet could select for apoptosis-resistant epithelial cells in the colon over time. Thus, a resistance-to-apoptosis bioassay may prove useful as an intermediate biomarker for determining which individuals are at high risk for colon cancer.

Alterations in mitochondrial structure and function are early events of dexamethasone-induced thymocyte apoptosis

In this paper we used a multiparametric approach to analyze extensively the events occurring during apoptotic cell death of thymocytes, and furthermore, we asked whether alterations in mitochondrial structure and function are occurring in early stages of apoptosis. A multiparametric quantitative analysis was performed on normal or apoptotic thymocytes emerging from a few-hour culture performed in culture medium or in the presence of dexamethasone. Simultaneous detection of light scattering properties, integrity of plasma membrane (trypan blue exclusion), chromatin condensation (AO/EB staining of entire cells or PI staining of nuclei), and DNA fragmentation (in situ nick-translation in apoptotic cells) allowed a precise analysis of the preapoptotic and apoptotic stages. Moreover a thorough study of mitochondrial transmembrane potential (delta psi m) assessed following in a time course study the uptake by apoptotic cells of the cationic lipophilic dye DiOC6(3) or the J-aggregate-forming cation JC-1, indicates that a drop in delta psi m occurs very early in thymocyte apoptosis, before DNA fragmentation. This is associated with alteration in mitochondrial structure assessed by cytofluorimetric study of NAO uptake in apoptotic cells. Finally these dramatic alterations in mitochondrial structure and function occurring in early stages of apoptosis were confirmed by confocal and electron microscopy analysis.

Limited capacity for tolerization of CD4+ T cells specific for a pancreatic beta cell neo-antigen

Mice transgenic for SV40 T antigen (Tag) under control of the rat insulin promoter (RIP) develop two alternative immunological phenotypes: tolerance or autoimmunity towards Tag. We utilized the T cell receptor (TCR) genes expressed in a Tag-specific CD4+ cell from an autoimmune RIP-Tag mouse to generate two lines of TCR transgenic mice in which either 10% or 90% of peripheral T cells express the transgenic TCR. When cross-bred to the tolerant RIP1-Tag2 line, mice from the low frequency TCR line showed partial deletion of peripheral Tag-specific T cells and nonresponsiveness of those that remained. In contrast, crossbred mice in which transgenic T cells comprised a majority of the T cell population were nontolerant both in vivo and in vitro. Thus, tolerization of CD4+ T cells specific for a rare self-antigen may fail if too many autoreactive T cells develop.

A minimal conditioning approach to achieve stable multilineage mouse plus rat chimerism

Transplantation of untreated rat bone marrow into lethally irradiated (950 cGy) mouse recipients results in durable xenogeneic (rat-->mouse) chimerism and confers donor-specific transplantation tolerance for subsequent xenografts. The purpose of the present study was to characterize the minimal dose of total body irradiation (TBI) which would allow engraftment of rat bone marrow in mouse recipients. We report here that durable and stable lymphohaematopoietic cross-species chimerism can be achieved using a less than totally ablative radiation-based conditioning approach. The percentage of B10 mouse recipients which engrafted with rat bone marrow cells correlated with the dose of TBI. Engraftment of rat bone marrow stem cells occurred in all animals receiving 750 cGy prior to bone marrow transplantation, while no engraftment was detected at doses less than 650 cGy. Although most of the recipients were repopulated with mixed mouse and rat multilineage chimerism, some exhibited a predominance of rat cells. Although mixed xenogeneic rat/mouse chimeras prepared by lethal TBI produced only mouse derived RBC (red blood cells), chimeras prepared by sublethal conditioning produced both rat and mouse RBC. Only animals with detectable chimerism exhibited specific functional transplantation tolerance to donor xenoantigens, as assessed in vitro by mixed lymphocyte reaction assay. This model may offer an in vivo approach to study the role of species-specific growth factors in stem cell biology as well as the mechanisms for the induction of tolerance across species barriers.

Bclx regulates the survival of double-positive thymocytes

The bclx gene has been shown to regulate programmed cell death in vitro. We now show that Bclx expression increases dramatically when T cells differentiate from CD4- CD8- (double negative) thymocytes to CD4+ CD8+ [double positive (DP)] thymocytes. In contrast single-positive (SP) thymocytes express negligible amounts of Bclx protein. This expression pattern contrasts with that of Bcl2, which is present in double-negative thymocytes, down-regulated in DP thymocytes, and reinduced upon maturation to SP thymocytes. Elimination of Bclx by gene targeting dramatically shortens the survival of DP thymocytes but not the survival of SP thymocytes or peripheral SP T cells. These data suggest that the induction of Bclx during thymic maturation plays a critical role in regulating the length of time DP thymocytes survive in the absence of selection.

T lymphocytes bearing the gamma delta T cell receptor are susceptible to steroid-induced programmed cell death

The mechanisms by which glucocorticoids suppress immune responses have not yet been clearly defined. In steroid-sensitive pathological conditions, an increase in gamma delta T cells can occur in certain untreated systemic autoimmune disorders and seems to be a peristent feature in most cases of systemic lupus erythematosus (SLE). Our previously published data demonstrated that immunosuppressive therapy normalized this expanded SLE T cell subset in parallel with clinical remission of the symptoms. To establish how corticosteroid treatment determines the disappearance of peripheral blood gamma delta T lymphocytes, circulating alpha beta and gamma delta T lymphocytes from seven SLE subjects with active disease and seven healthy individuals were cultured in the presence or absence of 10(-7) M Dexamethasone (DEX). Cell suspensions were then analysed for DNA fragmentation, characteristic of apoptotic cell death, by a new cytofluorimetric method. Conventional agarose-gel electrophoresis on the same T cell populations was carried out for comparison. Regular follow-ups for 6 months revealed in vivo steroid treatment determined a dramatic fall in SLE blood gamma delta T cells, and in vitro experiments seem to indicate that DEX-triggered apoptotic signals are confined to the double negative (CD4-CD8-) gamma delta T cell subpopulation which disappears after in vivo immunosuppressive therapy. Clinical and pathological remission of some autoimmune diseases is often obtained by corticosteroids. Our results offer new insights on the mechanisms through these hormones exert their potent inhibitory activities on immune system cells postulated to play a role in the generation of autoimmune responses.

Normal HBsAg presentation and T-cell defect in the immune response of nonresponders

Lymphocytes from nonresponders to HBsAg fail to proliferate in vitro in the presence of HBsAg-pulsed antigen presenting cells. We studied four pairs of major histocompatibility complex (MHC)-matched, mixed lymphocyte reaction-negative individuals discordant for HBsAg response. For each pair, responder lymphocytes proliferated in the presence of nonresponder antigen-pulsed antigen presenting cells. Responder and nonresponder antigen presenting cells were equally effective. There was no evidence for inhibition of responder T-cell proliferation by nonresponder lymphocytes or antigen presenting cells. The defect is thus in the helper T cells of nonresponders and not in the antigen processing or binding of processed peptides to MHC molecules on antigen presenting cells.

Acute graft-versus-host reaction in SCID mice leads to an abnormal expansion of CD8+ V beta 14+ and a broad inactivation of donor T cells followed by a host-restricted tolerance and a normalization of the TCR V beta repertoire in the chronic phase

The persistence and selection of allogeneic CBA/J T lymphocytes were studied during graft-versus-host (GvH) reaction in immunodeficient C.B-17 SCID (SCID) mice. After neonatal injection the donor cells primarily migrated to the spleen plus lymph nodes (SL) and the thymus of the recipients. Thirteen days post engraftment, CD8+ cells in SL had increased five times in cell number with an 18-fold increase of CD8+ V beta 14+ cells, paralleled by clinical signs of GvH disease (GvHD). Donor lymphocytes from these mice were proliferative unresponsive to allogeneic Balb/c or C57Bl/6 SL cells, whereas 8 weeks post injection the tolerance was confined to H-2d specific donor cells. Here, spleens had a total cell content similar to untreated SCID mice but the average percentage of donor cells had reached 25%. Moreover, the CD4/CD8 cell ratio in the donor population in SL and thymus had changed to normal and the TCR V beta repertoire was similar to that of the originally injected cells. Following secondary transfer into syngeneic CBA/Ca nu/nu recipients donor cells regained a significant but reduced response to H-2d stimulators indicating that the antigen specific tolerance of allogeneic donor cells in the SCID mice was due, at least in part, to a reversible state of anergy.

T cell receptor gamma gene polymorphisms and class II human lymphocyte antigen genotypes in patients with celiac disease from the west of Ireland

Although celiac disease has one of the strongest human lymphocyte antigen (HLA) class II associations of any human illness, it is clear that at least one gene that is not linked to the HLA region also is required for its pathogenesis. The occurrence of large numbers of gamma delta T cells in the bowel mucosa of patients and the recent description of T cell receptor (TCR) gamma chain polymorphic variants identified by restriction fragment length polymorphism analysis led the authors to examine TCR gamma genotypes in relation to HLA-DR, DQ genotypes in 89 patients with celiac disease and 55 control subjects from the West of Ireland. The overall frequency of TCR gamma genotypes in patients and control subjects was comparable. However, most of the patients had 1 of 3 HLA-DR3 genotypes (DR3/15, 3/7, or 3/3), and there was a significant alteration of the expected frequency of TCR gamma genotypes among patients with these three genotypes. The major differences were an increased association of HLA-DR3 homozygosity, with TCR gamma genotypes having a 16.0 kb fragment and an increased frequency of DR3/7 heterozygosity and decreased frequency of DR3/15 heterozygosity, respectively, in association with the TCR gamma 13.0/11.3 kb genotype. Based on their results, there is the possibility that an interaction between the products of two polymorphic and unlinked gene regions contributes to the pathogenesis of celiac disease.

T cell receptor-mediated signaling events in CD4+CD8+ thymocytes undergoing thymic selection: requirement of calcineurin activation for thymic positive selection but not negative selection

The goal of this study was to identify the differences of intracellular signals between the processes of thymic positive and negative selection. The activation of calcineurin, a calcium- and calmodulin-dependent phosphatase, is known to be an essential event in T cell activation via the T cell receptor (TCR). The effect of FK506, an inhibitor of calcineurin activation, on positive and negative selection in CD4+CD8+ double positive (DP) thymocytes was examined in normal mice and in a TCR transgenic mouse model. In vivo FK506 treatment blocked the generation of mature TCRhighCD4+CD8- and TCRhighCD4-CD8+ thymocytes, and the induction of CD69 expression on DP thymocytes. In addition, the shutdown of recombination activating gene 1 (RAG-1) transcription and the downregulation of CD4 and CD8 expression were inhibited by FK506 treatment suggesting that the activation of calcineurin is required for the first step (or the very early intracellular signaling events) of TCR-mediated positive selection of DP thymocytes. In contrast, FK506-sensitive calcineurin activation did not appear to be required for negative selection based on the observations that negative selection of TCR alpha beta T cells in the H-2b male thymus (a negative selecting environment) was not inhibited by in vivo treatment with FK506 and that there was no rescue of the endogenous superantigen-mediated clonal deletion of V beta 6 and V beta 11 thymocytes in FK506-treated CBA/J mice. DNA fragmentation induced by TCR activation of DP thymocytes in vitro was not affected by FK506. In addition, different effects of FK506 from Cyclosporin A on the T cell development in the thymus were demonstrated. The results of this study suggest that different signaling pathways work in positive and negative selection and that there is a differential dependence on calcineurin activation in the selection processes.

A minimal model for T-cell vaccination

We have developed a mathematical model for the regulation of the growth of autoreactive T cells (the T cells responsible for autoimmunity). The model is very simple in that it is based only on the fundamental properties of T cells. However, despite this simplicity, it can account for a variety of phenomena referred to as T-cell vaccination. The purpose of T-cell vaccination is to create resistance to autoimmunity. This can be achieved by injecting either a subpathogenic quantity of autoreactive T cells, or attenuated autoreactive cells, or cells that recognize the autoreactive cells. The results of our model are based on the assumption that the self antigens involved in T-cell vaccination are normally not expressed; thus the autoreactive T lymphocytes are neither activated nor negatively selected. Self tolerance, therefore, corresponds to a 'passive' state. T-cell vaccination induces a transition from this passive state of tolerance to an active state of tolerance. In this state the autoreactive cells are controlled by regulator cells which recognize the autoreactive cells. The model predicts a qualitative difference between vaccination with normal autoreactive cells and vaccination with attenuated autoreactive cells. Normal cells may give rise to a permanent switch to the vaccinated state; attenuated cells, however, can provide only transient protection, which is dose dependent. Preliminary experimental data confirm this prediction. Finally, we propose a speculative explanation for relapsing autoimmune disease.

Selective apoptosis of CD4+CD8+ thymocytes by the anti-Fas antibody

Fas is a cell surface protein that mediates apoptosis. A mouse mutant, lpr (lymphoproliferation), has a mutation in the Fas gene. In this report, we studied the expression and function of Fas in various subpopulations of mouse thymocytes. Abundant expression of Fas was detected on CD4+CD8+ double positive as well as CD4+ or CD8+ single positive thymocytes in wild-type mice. Little or low levels of Fas were expressed in CD4-CD8- double negative thymocytes except for the CD4-CD8-CD3+ phenotype, which expresses Fas as abundantly as double positive or single positive subsets. On the other hand, no Fas expression was detected in any population of thymocytes from lpr mice. When the wild-type thymocytes were treated with the agonistic anti-Fas antibody, double positive cells from the wild-type mice were selectively killed by apoptosis, whereas, the single positive cells were resistant to its cytolytic activity despite their abundant expression of Fas. Unlike the apoptosis of thymocytes induced by glucocorticoid or T cell activator, the Fas-induced apoptosis of thymocytes was enhanced by metabolic inhibitors such as cycloheximide. Furthermore, intraperitoneal administration of the anti-Fas antibody into mice caused rapid apoptosis of thymocytes in vivo.

Expression of cell interaction molecules by immature rat thymocytes during passage through the CD4+8+ compartment: developmental regulation and induction by T cell receptor engagement of CD2, CD5, CD28, CD11a, CD44 and CD53

Rat thymocytes of the T cell receptorlow (TcRlow) CD4+8+ subset which is the target of repertoire selection are heterogeneous with respect to expression of the cell interaction (CI) molecules CD2, CD5, CD11a/CD18 (LFA-1), CD28 and CD44. We show that this heterogeneity is due to the developmental regulation of these CI molecules during passage through the CD4+8+ compartment, and to up-regulation by TcR engagement. Thus, cohorts of CD4+8+ cells differentiating synchronously in vitro from their direct precursors, the immature CD4-8+ cells, were homogeneous with regard to CI molecule expression. Upon entry into the CD4+8+ compartment, they expressed relatively high levels of CD2 and CD44, and moderate levels of CD5, CD28 and CD11a. CD2, CD28 and CD44 were slightly down-regulated during the following 2 days, whereas CD5 slightly increased and CD11a remained constant. TcR stimulation using immobilized monoclonal antibodies resulted in rapid and dramatic up-regulation of CD2, CD5 and CD28 and, to a lesser extent, of CD11a and CD44. Finally CD53, a triggering structure absent from unstimulated CD4+8+ thymocytes was also rapidly induced by TcR stimulation. Inclusion of interleukin (IL)-2, IL-4, or IL-7 in this in vitro differentiation system did not affect the levels of CI molecules studied. Since the high levels of CI molecules induced by TcR-stimulation correspond to those found in vivo on TcRintermediate thymocytes known to be undergoing repertoire selection, these results suggest that upregulation of CI molecules by TcR engagement provides a mechanism by which thymocytes that have entered the selection process gain preferential access to further interactions with stromal and lymphoid cells in the thymus.

T cell receptor-mediated stimulation of mouse thymocytes induces up-regulation of the GM2/GD2 synthase gene

cDNA clones of the mouse GM2/GD2 synthase (EC 2.4.1.92) gene were isolated, and their analyses revealed that the protein has a type II transmembrane structure with 533 amino acids, which was very similar to the human homolog except for the mRNA size. The mRNA level in thymocytes dramatically increased after treatment with anti-CD3 monoclonal antibody, whereas it was not elevated when treated with prostaglandin E2. In situ hybridization showed an elevation of mRNA levels in medullar thymocytes, suggesting that T cell receptor-mediated signaling induces up-regulation of the GM2/GD2 synthase gene in mature thymocytes.

Glomerulonephritis associated with MRSA infection: a possible role of bacterial superantigen

We report 10 cases of glomerulonephritis following methicillin-resistant Staphylococcus aureus (MRSA) infection. The clinical features of this syndrome were an abrupt or insidious onset of rapidly progressive glomerulonephritis (RPGN) with nephrotic syndrome and occasionally purpura, following MRSA infection. The renal histologic findings showed a variety of types of proliferative glomerulonephritis with varying degrees of crescent formation; immunofluorescence revealed of glomerular deposition of IgA, IgG, and C3. Laboratory findings showed polyclonal increases of serum IgA and IgG, with high levels of circulating immune complexes (ICs). Increased numbers of DR+CD4+, and DR+CD8+T cells were observed in the peripheral circulation, with a high frequency of T cell receptor (TCR) V beta + cells. MRSA produced enterotoxins C and A and toxic shock syndrome toxin (TSST)-1, all of which are known to act as superantigens. From the above observations, we speculate that post-MRSA glomerulonephritis may be induced by superantigens causing production of high levels of cytokines, and polyclonal activation of IgG and IgA. The formation of ICs containing IgA and IgG in the circulation result in development of glomerulonephritis and vasculitis. Accordingly, microbial superantigens may play an important role in the pathogenesis of this unique syndrome of nephritis and vasculitis.

Nonresponsiveness of AKR.H-2b congenic mice for anti-AKR/Gross MuLV CTL responses: involvement of inhibitory cells as defined by adoptive transfer experiments

AKR.H-2b mice are unable to elicit AKR/Gross murine leukemia virus (MuLV)-specific cytolytic T lymphocyte (CTL) responses. The participation of inhibitory cells was addressed through adoptive transfer experiments utilizing young AKR.H-2b:Fv-1b congenic responder mice as the recipients of AKR.H-2b donor cells. The adoptive transfer of unfractionated viable splenocytes led to inhibition of virus-specific CTL responsiveness without affecting minor histocompatibility or allogeneic (H-2d)-specific CTL responses. Negative cell selection studies indicated that of the donor AKR.H-2b spleen cells that mediate specific inhibition, B lymphocytes, CD4-CD8+ and CD4+CD8- T lymphocytes, but not macrophages, even though they are viral antigen positive (as are B and T lymphocytes), were the cells responsible for the diminution of the generation of AKR/Gross virus-specific CTL by AKR.H-2b:Fv-1b mice. To evoke maximal inhibition, the adoptive transfer of AKR.H-2b cells had to be performed prior to in vivo priming with viral antigen. Anti-AKR/Gross MuLV nonresponsiveness of AKR.H-2b mice could not be overcome through utilization of exogenous IL-2 at either the priming or in vitro restimulation phases of CTL generation. These results illustrate the complex interaction between retroviruses and lymphocytes and are relevant to understanding how retrovirus-infected cells may not only escape immune surveillance themselves, but also may inhibit the cytolytic T cell response directed at other infected cells, such as tumor cells.

Different TCRBV genes generate biased patterns of V-D-J diversity in human T cells

The aim of this work was to assess whether each T-cell receptor (TCR) BV segment generates a random pattern of junctional diversity or if, alternatively, biased patterns of V-D-J rearrangements limit the number of available TCR specificities. Detailed molecular analysis of T-cell receptors expressed by lymphocytes was obtained by generating a large number of junctional regions sequences from TCRBV3, TCRBV4, TCRBV5S1, TCRBV12, TCRBV13S2, TCRBV17, TCRBV20, and TCRBV22 variable genes. The > 800 sequences analyzed have allowed the characterization of the recombination frequencies of each germline-encoded V, D, and J segments, as well as of the magnitude of exonucleolytic nibbling and of the number of N nucleotides inserted for each group of TCRB segments. The data obtained indicate that the extent of junctional diversity varies considerably depending on the TCRBV gene implicated in the recombination event, due to the occurrence of skewed patterns of J and D region usage. Furthermore, our results show that "illegitimate" rearrangements occur with unexpectedly high incidence, specifically at the level of TCRBD to TCRBJ joining. These findings provide additional information for a more accurate estimation of the size of the TCRBV repertoire and for understanding the well-established biased pattern of TCRBV expression in humans.

Self and non-self antigen in diabetic autoimmunity: molecules and mechanisms

In this article, we have summarized current facts, models and views of the autoimmunity that leads to destruction of insulin-producing beta-cells and consequent Type 1 (insulin-dependent) diabetes mellitus. The presence of strong susceptibility and resistance gene loci distinguishes this condition from other autoimmune disorders, but environmental disease factors must conspire to produce disease. The mapping of most of the genetic risk (or disease resistance) to specific alleles in the major histocompatibility locus (MHC class II) has direct functional implications for our understanding of autoimmunity in diabetes and directly implies that presentation of a likely narrow set of peptides is critical to the development of diabetic autoimmunity. While many core scientific questions remain to be answered, current insight into the disease process is beginning to have direct clinical impact with concerted efforts towards disease prevention or intervention by immunological means. In this process, identification of the critical antigenic epitopes recognized by diabetes-associated T cells has achieved highest priority.

Early molecular events induced by T cell receptor (TCR) signaling in immature CD4+ CD8+ thymocytes: increased synthesis of TCR-alpha protein is an early response to TCR signaling that compensates for TCR-alpha instability, improves TCR assembly, and parallels other indicators of positive selection

Differentiation of immature CD4+ CD8+ thymocytes into mature CD4+ or CD8+ T cells occurs within the thymus and is dependent upon expression of antigen receptor complexes (T cell receptor [TCR]) containing clonotypic alpha/beta proteins. We have recently found that CD4+ CD8+ thymocytes express low levels of surface TCR because of limitations placed on TCR assembly by the instability of nascent TCR-alpha proteins within the endoplasmic reticulum (ER) of immature thymocytes. Because TCR-alpha/beta expression increases during development, a molecular mechanism must exist for increasing the number of assembled TCR complexes present in immature CD4+ CD8+ thymocytes that have been signaled to differentiate into mature T cells, although no such mechanism has yet been described. In the current report we have examined the molecular consequences of intracellular signals generated by engagement of surface TCR complexes on immature CD4+ CD8+ thymocytes. Isolated TCR engagement generated signals that increased TCR-alpha RNA levels and increased synthesis of TCR-alpha proteins, which, in turn, significantly increased assembly of complete TCR-alpha/beta complexes in CD4+ CD8+ thymocytes. Increased TCR-alpha protein levels in TCR-signaled CD4+ CD8+ thymocytes was the result of increased synthesis and not increased stability of TCR-alpha proteins, indicating that TCR engagement compensates for, but does not correct, the inherent instability of TCR-alpha proteins in the ER of immature thymocytes. Consistent with the delivery by TCR engagement of a positive selection signal, TCR engagement also increased CD5 expression, decreased RAG-1 expression, and decreased CD4/CD8 coreceptor expression in immature CD4+ CD8+ thymocytes. These data identify amplified TCR-alpha expression as an initial response of immature CD4+ CD8+ thymocytes to TCR-mediated positive selection signals and provide a molecular basis for increased surface TCR density on developing thymocytes undergoing selection events within the thymus.

Extrathymic intestinal T-cell development: virtual reality?

Extrathymic T-cell development is a topic of considerable interest and debate, with important implications for the mechanisms of T-cell maturation and repertoire selection. Recent evidence has suggested that intraepithelial T lymphocytes (IELs) of the small intestine can mature and undergo selection in the absence of a thymus. However, IEL precursors are present in the thymus and IEL development is known to be influenced by the thymus. Here, Leo Lefrançois and Lynn Puddington discuss these data and suggest that the differentiation pathway of IEL precursors is dependent on whether or not a thymus is present.

From AIDS to parasite infection: pathogen-mediated subversion of programmed cell death as a mechanism for immune dysregulation

Premature cell death can result either from cell injury or degeneration, leading to necrosis, or from the activation of a physiological cell-suicide process, termed programmed cell death or apoptosis, that is regulated by intercellular signalling. This process plays an essential role in the selection of developing lymphocytes, and is also involved in the function of the mature adaptative immune system. A growing number of experimental findings during the last 4 years has provided support to our hypothesis that inappropriate HIV-mediated dysregulation of programmed T-cell death is relevant to AIDS pathogenesis. A series of recent experimental results also supports the general concept that the persistence and pathogenesis of several infectious pathogens, ranging from retroviruses to parasites, may be related to their capacity to dysregulate programmed cell death in various cell populations including lymphocytes. Subversion by pathogens of the physiological control of programmed cell death provides a paradigm for the pathogenesis of a wide range of infectious diseases that involve immune dysregulation and suggests therapeutic potential for the in vivo modulation of cell signalling.

Cellular and molecular aspects of organotin-induced thymus atrophy

1. Organotin compounds, di-n-butyltin dichloride (DBTC) in particular, have been shown to cause thymus atrophy in the rat. 2. DBTC-induced thymus atrophy results from a depletion of small CD4+CD8+ thymocytes which is caused by a diminished production of immature CD4-CD8+ and CD4+CD8+ thymoblasts. 3. DBTC inhibits the activation, but not the differentiation of immature CD4-CD8+ thymocytes in vitro and in vivo suggesting a selective antiproliferative activity of DBTC. 4. DBTC inhibits the adhesion molecule-mediated binding of thymocytes to thymic epithelial cells. 5. DBTC enhances the Ca2+ release elicited by cross-linking of the T cell receptor complex (TcR alpha beta-CD3) on thymocytes and moreover delays cap formation of the TcR alpha beta-CD3 receptor. 6. It is concluded that DBTC possibly interferes with the functioning of the cytoskeleton. The relation of the in vitro findings to the inhibition of immature CD4-CD8+ thymocyte activation and the induction of thymus atrophy is unknown as yet.

TCR gamma delta cells: mysterious cells of the immune system

Gamma delta cells participate in pathogenic infections and autoimmune conditions, yet, almost a decade after their discovery, little is known regarding their TCR repertoire or effector functions. Unlike MHC-restricted antigen recognition employed by TCR alpha beta cells, TCR gamma delta cells can recognize whole unprocessed antigens in an MHC- independent manner. The nature of positive and negative selection used to shape the repertoire of TCR gamma delta cells is unclear, especially in the nonlymphoid tissues where these cells predominate. While TCR gamma delta cells express an activated phenotype and are present in pathological conditions, their roles in immunological protein is unknown. This review will focus on our efforts to study these issues of TCR gamma delta biology.

Thromboxane A2 receptor blocking abrogates donor-specific unresponsiveness to renal allografts induced by thymic recognition of major histocompatibility allopeptides

Recent in vitro studies have documented that thromboxane (Tx)A2 induces thymocyte apoptosis by acting on specific receptors abundantly expressed on the surface of immature T lymphocytes. No information is available on the in vivo relevance of this observation in development of self- or acquired tolerance. We and others have previously documented that injection of donor cells into adult thymus of experimental animals induced specific systemic unresponsiveness to allografts in the rat and mouse models. More recently, we have shown that intrathymic injection of synthetic class II major histocompatibility complex (MHC) allopeptides resulted in donor-specific unresponsiveness to renal allografts. The induction of unresponsiveness was abrogated by recipient thymectomy within the first week. We now report the effect of TxA2 blockade on acquired thymic tolerance to renal allografts induced by intrathymic injection of synthetic class II MHC allopeptides in the Wistar-Furth (WF) to Lewis rat strain combination. Administration of the TxA2 receptor blocker prior to transplantation or 2 wk postengraftment completely abrogated the unresponsive state. In addition, inhibiting the TxA2-forming enzyme by aspirin or dexamethasone also abolished the induction of acquired thymic tolerance. Evidence is also provided for a critical "dose" of peptides to be injected into the thymus to induce systemic unresponsiveness to renal allografts. These data, coupled with observations that activated peripheral T cells can circulate through the thymus, provide evidence that TxA2/TxA2 receptor interaction in the thymic microenvironment, leading to anergy/programmed cell death of activated T cells, may play an important role in the development of acquired unresponsiveness in vivo.

Analysis of lymphocyte cell death and apoptosis in HIV-2-infected patients

Recent evidence suggests that T cell apoptosis could be involved in the pathogenesis of HIV-1 infection. As the progression of HIV-2 associated disease appears to be slower than that of HIV-1, we investigated whether there were differences in the degree of T cell death and apoptosis in peripheral blood mononuclear cell (PBMC) cultures from patients with HIV-1 or HIV-2 infection. PBMC from healthy controls (n = 28) and patients infected with HIV-1 (n = 26: asymptomatic (ASY)/persistent generalized lymphadenopathy (PGL), n = 16; and AIDS-related complex (ARC)/AIDS n = 10) or HIV-2 (n = 30: ASY/PGL, n = 16; ARC/AIDS, n = 14) were cultured in the absence or presence of mitogens (PHA, PWM) or superantigen (SEB). After 48 h, cell death (CD) was assessed by trypan blue exclusion and in some patients programmed cell death (PCD) was quantified in flow cytometry by measuring the percentage of hypodiploid nuclei corresponding to fragmented DNA, after treating the cells with a propidium iodide hypotonic solution. HIV-1 and HIV-2 ARC/AIDS patients and ASY/PGL HIV-1+ patients had significant increases in cell death percentages compared with controls, both in unstimulated and stimulated lymphocyte cultures. However, HIV-2+ ASY/PGL patients did not exhibit significant increases of cell death in unstimulated cultures. In addition, the comparison between HIV-1 and HIV-2 infected subjects in similar stages of disease, showed no significant differences in CD in the ARC/AIDS patients, although ASY/PGL HIV-2 infected subjects had lower levels of CD than the HIV-1+ ASY/PGL (3.4% +/- 0.6 s.e.m. versus 6.8% +/- 1.1 s.e.m., P < 0.01). PCD was significantly increased both in ASY/PGL (14.3% +/- 2.2 s.e.m., n = 8, P < 0.005) and in ARC/AIDS (25.3% +/- 4.5 s.e.m., n = 9, P < 0.001) HIV-1+ patients compared with healthy controls (5.8% +/- 1.7 s.e.m., n = 11). This contrasts with HIV-2 infected subjects where the ASY/PGL patients (10.0% +/- 2.8 s.e.m., n = 6) did not differ significantly from healthy controls, although ARC/AIDS patients (27.2% +/- 4.2 s.e.m., n = 9, P < 0.001) had significantly increased levels of PCD. In conclusion, this is the first report describing the occurrence of spontaneous and activation-induced lymphocyte death by apoptosis in HIV-1 infected subjects.(ABSTRACT TRUNCATED AT 400 WORDS)

Positive selection of CD4+ T cells by TCR ligation without aggregation even in the absence of MHC

The developmental fate of immature thymocytes is determined by the specificity of their T-cell antigen receptors (TCRs). Immature CD4+8+ thymocytes are positively selected to differentiate into mature T cells by recognition of peptides associated with major histocompatibility complex (MHC) encoded molecules on thymic epithelial cells. But neither the identity of molecules transducing positive selection signals nor the nature of the signals themselves is fully known. Here we report that direct ligation of TCR molecules by monoclonal antibodies specific for either clonotypic or CD3 chains can signal immature thymocytes to differentiate into mature CD4+8- T cells, even in the absence of MHC expression and MHC-dependent CD4 co-receptor signalling. Moreover, we show that TCR engagement induces positive selection signals only in the absence of TCR aggregation and that TCR aggregation is inhibitory for positive selection. Thus, low valency of TCR crosslinking is a critical parameter, distinguishing positive selection from other TCR-mediated signalling events.

Fine specificity of CD4+ T cell responses to the dominant encephalitogenic PLP 139-151 peptide in SJL/J mice

PLP 139-151(S) is the major encephalitogenic epitope of PLP in the SJL/J mouse. CD4+ T cells specific for PLP 139-151(S) induce a relapsing-remitting form of EAE which is similar to the human demyelinating disease MS in both clinical course and histopathology. We are interested in events involved in activation of autoreactive T cells and how to specifically regulate these immune response to both prevent and treat ongoing demyelinating disease. In the current study, we examined the effect of both amino acid substitutions and deletions in the native PLP 139-151(S) peptide to identify which residues are critical for immunogenicity and encephalitogenicity. Conservative and nonconservative substitutions at position 145 diminished or completely destroyed the encephalitogenic potential of the peptide without affecting the ability to recall a proliferative response in lymph node T cells primed with the native PLP 139-151(S) peptide indicating an interesting dichotomy between ability to induce T cell proliferation and ability to induce active clinical disease. In addition, tryptophan at position 144 was identified as a critical TCR contact site as a peptide containing an alanine for tryptophan at this position (A144) primed a unique population of T cells which did not cross react with the native PLP 139-151(S). In addition, A144 was unable to stimulate PLP 139-151(S)-specific T cells in vitro or to induce active relapsing EAE in vivo. The significance of these results to the potential development of new strategies for preventing and treating T cell-mediated autoimmune diseases is discussed.

Gamma delta and alpha beta T cells are equally susceptible to apoptosis

Little is known about the role of apoptosis in the regulation of gamma delta T cell development and function. We have used chicken as a model to study apoptosis of gamma delta T cells at different stages of their development. Apoptosis was measured with electrophoretic analysis of DNA fragmentation and flow cytometric determination of DNA content combined with immunofluorescence staining of cell surface molecules. In vitro culture, dexamethasone, and gamma-irradiation induced apoptosis of both gamma delta TCR+ thymocytes and peripheral gamma delta T cells. Apoptosis could be induced even in the earliest thymic gamma delta thymocytes on embryonic day 13. Resting peripheral blood gamma delta T cells were more resistant to apoptosis than thymocytes and spleen cells. Following polyclonal activation of splenic gamma delta T cells by Con A, the proportion of the CD8+ gamma delta T cell blasts decreased significantly when recultured without further stimulation. These results indicate that gamma delta T cells are susceptible to apoptosis in a manner similar to alpha beta T cells, and suggest that apoptosis plays an important role in the regulation of the development and function of both thymic and peripheral gamma delta T cells.

On a causal mechanism of chronic thymic involution in man

The age-associated chronic thymus involution is interpreted to occur due to cytolytic depletion of thymic stromal tissue whose cells present altered self-peptides. Using simplified assumptions and based on morphometric data on thymic involution in man, the chance for a single protein to be altered is estimated to be in the range of 2-4 x 10(-6) per year. The corresponding mutation rate is compatible with that derived from both evolutionary and direct studies, thus supporting the proposed model.

T-cell tolerance toward a transgenic beta-cell antigen and transcription of endogenous pancreatic genes in thymus

Transgenic mice expressing T antigen (Tag) in pancreatic beta cells establish systemic tolerance toward this self-protein. The self-tolerance in two families of rat insulin promoter (RIP)-Tag mice, expressing different levels of Tag protein, has been characterized. These mice have impaired antibody responses to Tag, show diminished Tag-specific T-cell proliferation, and evidence an inability to generate Tag-specific cytotoxic T cells. The existence of systemic tolerance toward a beta-cell-specific protein motivated examination of transgene expression in the thymus. Indeed, low levels of Tag mRNA were detected intrathymically. Remarkably, this expression is a valid property of the insulin gene regulatory region, since insulin RNA was also expressed in the thymus of nontransgenic mice. RNA for other pancreatic genes was also detected in the thymus, thus raising the possibility that many tissue-specific genes could be expressed intrathymically during immunological development and induction of self-tolerance. These results raise important questions for future research into the role of the thymus in tolerance induction toward so-called tissue-specific antigens.

Sequence restrictions in T cell receptor beta-chains that have specificity for a self-peptide/Ld complex

Cytotoxic T lymphocytes that react with a complex of Ld and a ubiquitous self-peptide derived from the enzyme alpha-ketoglutarate dehydrogenase (p2Ca, LSPFPFDL) can be readily elicited by the addition of synthetic peptide to cultures of BALB/c spleen cells. As with other Ld-restricted CTL, the p2Ca-specific cells use predominantly the V beta 8.3 region. In addition, the p2Ca-specific cells use almost exclusively one of three J beta gene segments. Selection for these J beta regions appears to be related to the presence of a glutamic acid residue that is encoded at the 5' end of the J beta and is present within the CDR3. As p2Ca does not contain a complementary charged residue, this finding may suggest that the beta-chain CDR3 from p2Ca-specific CTL contacts one of the five basic residues located on the Ld helices. Together, the results support the possibility that CDR1 and/or CDR2 (within V beta 8.3) and the CDR3 may each contact the Ld molecule. In contrast to the V beta and J beta regions, the V beta D beta J beta junctions and V alpha J alpha repertoires were diverse. The diversity could explain why p2Ca-specific CTL have relatively high precursor frequencies allowing them to be generated rapidly in primary cultures.

Immunotoxic organotins as possible model compounds in studying apoptosis and thymocyte differentiation

In the mid-seventies it appeared that some organotin compounds selectively caused thymus atrophy. From that time onward efforts were made to reveal molecular and cellular mechanisms involved. In this review recent studies into organotin-sensitive stages and processes of thymocyte maturation are discussed. Together these studies resulted in the recognition of organotin compounds as possible model compounds in studying immature thymocyte differentiation and protein synthesis-independent apoptotic cell death of thymocytes.

Specificity and flexibility in thymic selection

During positive selection, developing thymocytes are rescued from programmed cell death by T-cell receptor (TCR)-mediated recognition of major histocompatibility complex (MHC) molecules. MHC-bound peptides contribute to this process. Recently we identified individual MHC-binding peptides which can induce positive selection of a single TCR. Here we examine peptide fine specificity in positive selection. These data suggest that a direct TCR-peptide interaction occurs during this event, and strengthens the correlation between selecting peptides and TCR antagonists. Certain positively selecting peptides are weakly antigenic. We demonstrate that thymocytes 'educated' on such a peptide are specifically non-responsive to it and have decreased CD8 expression levels. Similar reduction of CD8 expression on mature T cells converts a TCR agonist into a TCR antagonist. These data indicate that thymocytes may maintain self-tolerance towards a positively selecting ligand by regulating co-receptor expression.

Programmed cell death: implications for neuropsychiatric disorders

Programmed cell death, sometimes referred to as apoptosis, occurs through an active process requiring new gene transcription, in contrast to the passive cell death produced by metabolic toxins. Programmed cell death is an essential part of normal development, particularly in the nervous system. Spatial, temporal, or quantitative errors in the stimuli that initiate programmed cell death, or errors within the programmed cell death pathway itself, can result in an abnormal number of neurons and pathological neural development. Excesses and deficits in neuronal numbers have now been observed not only in typical neurodegenerative disorders such as Alzheimer's and Huntington's diseases, but also in several neurodevelopmental disorders, including schizophrenia and autism. Recent investigations into the mechanisms of cell death during C. elegans neurodevelopment thymocyte negative selection, and withdrawal of sympathetic ganglion cells trophic support provides intriguing clues to the etiology and pathophysiology of these neuropsychiatric disorders.

Analysis of the V beta specificity of superantigen activation with a rapid and sensitive method using RT PCR and an automatic DNA analyser

Polymerase chain reaction (PCR) by the specific amplification of a DNA target sequence has been shown to permit analysis of T cell receptor usage. The complete repertoire is amplified using oligonucleotide primers specific for each of the known V alpha or V beta regions of the T cell receptor. One of the methods currently used to appreciate the relative quantity of different V chains of the TCR is by coamplifying in the same reaction tube the variable region of one chain together with the constant region of the other chain. We have optimised PCR conditions and analysed PCR products on an automatic DNA analyser facilitating the quantification of the amplified products, avoiding the use of radioisotopes, and allowing the determination of the sizes of CDR3 regions, thus giving new information on the modification of the T cell repertoire. This method was used to analyse the precise V beta specificity of the T cell activation with the superantigen SEB.

Induction of wasting disease in SCID mice by the transfer of normal CD4+/CD45RBhi T cells and the regulation of this autoreactivity by CD4+/CD45RBlo T cells

SCID mice injected with coisogenic CD4+/CD45RBhi lymph node T cells from normal donors develop a wasting disease that is due to hyperplasia of the intestinal epithelium. SCID mice injected with purified lymph node CD4+ T cells or CD4+/CD45RBlo T cells do not develop the disease. In addition, mixture of the CD4+/CD45RBlo T cells with equal numbers of CD4+/CD45RBhi T cells inhibits the development of disease. SCID mice that were reconstituted with CD45RBhi T cells with active disease were treated with oral antibiotics and this ameliorated the symptoms, suggesting a role of the gut bacterial flora in the development of disease. Attempts were made to accelerate or inhibit disease by chronically administering cytokines to the mice. Neither IL2 nor IL4 were effective in altering the course of disease development when given in doses known to be effective in other in vivo models. Thus, the regulation of the reactivity seen in these SCID mice may involve as yet unappreciated mechanisms.

Nonrandom T-cell receptor J beta usage pattern in human CD4+ and CD8+ peripheral T cells

Association frequencies of TCR J beta gene segments with six V beta families (V beta 3, 6.1-3, 8, 9, 12, and 18) were analyzed in T-cell populations obtained from healthy blood donors. The six selected V beta families are located at various chromosomal positions relative to other recombinatorial elements (D beta, J beta, C beta). We report here that in CD4+ as well as CD8+ T-cell subsets, all 13 J beta gene segments were used in combination with all the V beta s tested and that no correlation between the genomic position of the individual V beta s and J beta gene segment usage was observed. J beta gene segment usage was found to be nonrandom in general, with J beta 2.7 and J beta 2.4 exhibiting highest and lowest frequency of utilization, respectively. J beta family 2 was used more frequently than J beta family 1 by the two T-cell subsets. Some individual J beta gene segments were skewed toward either CD4+ or CD8+ T cells. Thus, J beta 1.3 and J beta 1.6 were consistently biased toward expression in CD4+ T cells. In contrast, when combined with V beta 8 or V beta 9, J beta 2.1 results were skewed dramatically toward expression in CD8+ T cells. We also found 70 cases of expanded individual V beta/J beta associations in a total of 1092 investigated combinations, 62 of which were confined to the CD8+ T-cell populations. CD8+ T-cell populations are thus much more likely to contain TCR V beta/J beta-restricted expansions than CD4+ T cells.

Influence of HLA class I and class II antigens on the peripheral T-cell receptor repertoire

Using TCR-specific mAbs, we analyzed the TCR distribution in the CD4 and CD8 compartments of peripheral blood T cells from members of six families, including two which were informative for an HLA-B/DR crossover. TCR distribution in the CD4 compartment is influenced by MHC class II antigens as it was similar in the child carrying the HLA-B/DR recombination and in the HLA-DR-identical sibling. There was also a relatively small degree of difference between TCR distribution in the CD8 compartment of a child with an HLA-B/DR crossover and his HLA class-I-identical sibling. Analysis of TCR V beta gene usage in the CD4 compartment of unrelated individuals sharing an HLA-DR allele showed an increased usage of V beta 8a and V beta 12a in DR4-positive subjects. These data suggest that studies of TCR V beta gene usage in individuals with HLA-associated autoimmune diseases may provide further information about MHC-dependent biases in the T-cell repertoire.

3,3',4,4'-Tetrachlorobiphenyl inhibits proliferation of immature thymocytes in fetal thymus organ culture

The environmental pollutant 3,3',4,4'-tetrachlorobiphenyl (TCB) leads to thymic atrophy and immunosuppression, the former possibly causing the latter. TCB binds to the cytosolic aryl-hydrocarbon receptor (AhR) and transforms it into a DNA-binding state. The development of fetal thymocytes is severely affected by TCB and other AhR-binding xenobiotics, leading to a skewed pattern of thymocyte maturation stages. Murine thymocyte proliferation after exposure to TCB was studied in fetal thymus organ culture (FTOC). C57BL/6 fetus thymic lobes from day 15 of gestation were explanted and grown for 2, 4, 6, and 8 days in organ culture in the presence or absence of 3.3 microM TCB. Subsets of thymocytes were defined by CD4 and CD8 surface markers, and their cell cycle was analysed by DNA staining with 7-amino-actinomycin D (7-AAD). Exposure of fetal thymi in vitro to 3.3 microM TCB significantly reduced the total number of thymocytes, and fewer thymocytes were in S/G2M phase. The inhibition of cell proliferation induced by TCB treatment affected mainly the CD4-CD8- (double-negative, DN) and CD4-CD8+ (single-positive, SP) subsets, and these inhibition appeared mainly in more immature thymocytes, i.e. DNCD3- and CD8+CD3- subpopulations, whereas no effect of TCB on CD4+CD8+ (double-positive, DP) cell proliferative activity was observed. Analysis of the relation of cell proliferation and development of subsets in differentiating fetal thymocytes suggests that TCB enhanced thymocyte differentiation into mature CD8+ cells.