Peripheral deletion of mature CD8+ antigen-specific T cells after in vivo exposure to male antigen.

It has been well established that T cell tolerance to self Ag occurs primarily via clonal deletion of immature thymocytes in the thymus. Evidence also exists that there are additional mechanisms operative on mature T cells for establishing and maintaining tolerance in the periphery. To follow the fate of mature Ag-specific T cells in vivo, we used female transgenic mice, which contain a large population of male H-Y Ag-specific T cells that can be identified by immunostaining with mAb directed against CD8 and the transgenic TCR. H-Y Ag was introduced into these mice by injecting Ag-bearing male lymphocytes using conditions known to induce CTL precursor response reduction. The number of Ag-reactive CD8+ transgenic T cells in the periphery started to decrease after 2 days of in vivo exposure to male Ag. Decline was maximum (up to 80% of total) by 7 days, and stayed at this level for at least 6 wk. CD4+ cells and those CD8+ cells that did not carry the transgenic TCR were not affected. Most or all of the remaining Ag-reactive CD8+ cells in the periphery were fully responsive when stimulated by male Ag in vitro. Maturation of transgenic T cells in the thymus of injected mice remained the same as that of control animals. Our data provide direct evidence that mature Ag-reactive CD8+ cells are susceptible to clonal deletion in the periphery when exposed to the Ag in vivo. These findings suggest the presence of two types of APC in the periphery: stimulatory APC (e.g., macrophages and dendritic cells) required for initiating an active immune response; and functionally deleting APC (or veto cells) capable of deleting mature T lymphocytes that recognize Ag presented on their surface. Functionally deleting APC that present self Ag to peripheral T cells may provide a fail-safe mechanism against autoreactive cells that escaped deletion during differentiation in the thymus.     

Role of the thymus in regulation of the macrophage migration inhibitory factor production in mice of different genotypes]

The influence of the thymus on the production of the macrophage migration inhibitory factor (MIF) was studied in C57BL and CBA mice thymectomized at 4--6 weeks of age. On the 1--21st day after the operation they were immunized intraperitoneally with complete Freund's adjuvant. MIF production stimulated by tuberculin was determined on the maximum of the immune response. MIF production was abolished in mice of both lines already during the first days. To elucidate a relationship between MIF production and the presence of the thymus the former was investigated in the thymectomized "nude" mice. The mice showed no MIF production. It was found as well that thymectomy can interrupt the immune response in early stages of its development and completely eliminates MIF production the first days after immunization. Moreover, thymectomy in adult mice also changes spontaneous migration of macrophages both in immunized and non-immunized mice. These changes were more pronounced in C57BL mice.     

The role of cytostasis in antitumor immunity: comparison between syngeneic and allogeneic systems

Different aspects of the immune response differ with respect to sensitivity of neonatal thymectomy (NTx). The effect of thymectomy on Days 1 and 7 after birth (NTx-1, NTx-7) on antitumor immune responses to both a syngeneic and an allogeneic tumor graft was examined. The tumor used was the same, Meth A fibrosarcoma of BALB/c origin, but the mice inoculated differed. The results show that the immune response to a syngeneic tumor graft is primarily cytostatic rather than cytolytic and is relatively insensitive to neonatal thymectomy, while the response to a large dose of allogeneic tumor cells includes a cytolytic mechanism of high thymus dependence.     

Differences in thymus dependency among the alloreactive T-cell subpopulations in their development

Effects of thymectomy at various times after birth (Tx-1, Tx-3, Tx-7, Tx-14) on mixed lymphocyte reaction (MLR), cell-mediated cytotoxicity (CMC), and graft-versus-host reaction (GVHR) were examined by experiments with spleen cells obtained at 8 weeks of age. All of MLR, CMC, and GVHR were detected in spleen cells of Tx-14 mice. However, the ability of spleen cells to induce GVHR was abolished by thymectomy at 7 days after birth. On the other hand, MLR and CMC were not affected in such mice. In Tx-1 or Tx-3 mice, only MLR was detected in spleen cells. These results suggest that thymus dependency of T cells responsible for MLR are lower in their maturation than those for CMC and that thymus dependency of T cells responsible for GVHR are the highest among these T-cell subpopulations.     

Thymus-dependency of the immune response of mice to a primary infection with the nematode Trichuris muris

Adult mice which had been thymectomized, irradiated and given stem-cell protection were incapable of making a self-cure response to a primary infection with the nematode Trichuris muris. The capacity to mount a self-cure response was restored by the injection of 2·5 × 10⁶ mesenteric lymph node lymphocytes or by 2·5 × 10⁸, but not 2·5 × 10⁷, thymocytes. Restoration of the ability to respond to sheep red blood cells was achieved with all three cell injections. Suppression of the immune response was also achieved by injection of ALS during the second week of infection and at intervals thereafter. The results of thymectomy and ALS treatment show that immunity to T. muris is dependent upon the presence of an intact thymus and thymus-dependent cell population.     

The thymus plays a role in oral tolerance in experimental autoimmune encephalomyelitis

The oral administration of myelin proteins has been used for the successful prevention and treatment of experimental autoimmune encephalomyelitis (EAE). We questioned whether the thymus was involved in oral tolerance. In this study, euthymic myelin basic protein (MBP) TCR transgenic mice are protected from EAE when fed MBP but are not protected when thymectomized. Similarly, in a cell transfer system, T cell responses to OVA measured in vivo were suppressed significantly only in the OVA-fed euthymic mice but not in the thymectomized mice. We observed that the absence of the thymus dramatically enhanced the Th1 response. We explored three alternatives to determine the role of the thymus in oral tolerance: 1) as a site for the induction of regulatory T cells; 2) a site for deletion of autoreactive T cells; or 3) a site for the dissemination of naive T cells. We found that Foxp3(+)CD4(+)CD25(+) T cells are increased in the periphery but not in the thymus after Ag feeding. These CD4(+)CD25(+) T cells also express glucocorticoid-induced TNFR and intracellular CTLA4 and suppress Ag-specific proliferation of CD4(+)CD25(-) cells in vitro. The thymus also plays a role in deletion of autoreactive T cells in the periphery following orally administered MBP. However, thymectomy does not result in homeostatic proliferation and the generation of memory cells in this system. Overall, the oral administration of MBP has a profound effect on systemic immune responses, mediated largely by the generation of regulatory T cells that act to prevent or suppress EAE.     

Paternal antigen-bearing cells transferred during insemination do not stimulate anti-paternal CD8+ T cells: role of estradiol in locally inhibiting CD8+ T cell responses

Maternal immunological tolerance of the semiallogeneic fetus involves several overlapping mechanisms to balance maternal immunity and fetal development. Anti-paternal CD8+ T cells are suppressed during pregnancy in some but not all mouse models. Since semen has been shown to mediate immune modulation, we tested whether exposure to paternal Ag during insemination activated or tolerized anti-paternal CD8+ T cells. The uterine lumen of mated female mice contained male MHC I+ cells that stimulated effector, but not naive, CD8+ T cells ex vivo. Maternal MHC class I+ myeloid cells fluxed into the uterine lumen in response to mating and cross-presented male H-Y Ag to effector, but not naive, CD8+ T cells ex vivo. However, neither unprimed nor previously primed TCR-transgenic CD8+ T cells specific for either paternal MHC I or H-Y Ag proliferated in vivo after mating. These T cells subsequently responded normally to i.p. challenge, implicating ignorance rather than anergy as the main reason for the lack of response. CD8+ T cells responded to either peptide Ag or male cells delivered intravaginally in ovariectomized mice, but this response was inhibited by systemic estradiol (inducing an estrus-like state). Subcutaneous Ag induced responses in both cases. Allogeneic dendritic cells did not induce responses intravaginally even in ovariectomized mice in the absence of estradiol. These results suggest that inhibition of antiallogeneic responses is restricted both locally to the reproductive tract and temporally to the estrous phase of the menstrual cycle, potentially decreasing the risk of maternal immunization against paternal Ags during insemination.     

Delayed-type hypersensitivity responses to H-Y: Characterization and mapping ofIr genes

This paper examines the delayed-type hypersensitivity (DTH) response to male (H-Y) antigen(s). Female mice of theH?2 ^b haplotype developed delayed footpad reaction to syngeneic or allogenic male thymus and spleen cells after priming with syngeneic male thymus and spleen cells. The reaction peaks at 24 h, has classical DTH histology and is specific to H-Y antigen as it is not elicited with female cells. Cell transfer studies show that donor/recipient matching at theI?B ^b subregion is necessary for sucessful transfer of DTH and that the effective primed population is Thy-1⁺, Lyt-1⁺, 2^?. DTH response to H-Y antigen appears to be confined to mice of theH?2 ^b haplotype. There appears to be a lack of associative recognition between H-Y antigen and MHC-coded determinants in the effector phase of DTH, and macrophage processing of H-Y seems likely, since nonresponder haplotypes can elicit the DTH response. Studies withH?2 ^b recombinant mouse strains indicate that the dominantIr gene is located in theI?B region. Female F₁ hybrid mice derived from matings of strains not involvingH?2 ^b haplotype failed to develop DTH to H-Y. In summary, these data imply that a complete correlation exists between DTH to H-Y and the ability to reject male skin graft, suggesting that the effector mechanisms of skin-graft rejection may closely involve DTH cells.     

Thymus cell population exerting a regulatory function in the immune response of mice to polyvinyl pyrrolidone

An increased response to PVP was observed after adult thymectomy and was partially reversed either by thymus implantation or by a single injection of thymic cells. In addition, an injection of thymic cells was found to reduce the response to PVP in normal recipients. An enhanced response to PVP was measured in B mice compared to that of normals. In such mice reduction of the response to PVP was observed when repeated doses of thymus cells were administered. Lower doses of HC resistant thymus cells strongly inhibited the response to PVP. The cells involved in the thymus regulatory function appear to be radiosensitive, since it was shown that radiation by itself resulted in an increased response to PVP. This inhibitory function of the thymus seems to disappear relatively early in progression of life, as seen by an increased response to PVP in elder mice. These results indicate that a T cell population exerts a regulatory function in the immunological response to PVP that was previously considered to be thymus independent.     

MHC class I allele dosage alters CD8 expression by intestinal intraepithelial lymphocytes

The development of TCR alphabeta(+), CD8alphabeta(+) intestinal intraepithelial lymphocytes (IEL) is dependent on MHC class I molecules expressed in the thymus, while some CD8alphaalpha(+) IEL may arise independently of MHC class I. We examined the influence of MHC I allele dosage on the development CD8(+) T cells in RAG 2(-/-) mice expressing the H-2D(b)-restricted transgenic TCR specific for the male, Smcy-derived H-Y Ag (H-Y TCR). IEL in male mice heterozygous for the restricting (H-2D(b)) and nonrestricting (H-2D(d)) MHC class I alleles (MHC F(1)) were composed of a mixture of CD8alphabeta(+) and CD8alphaalpha(+) T cells, while T cells in the spleen were mostly CD8alphabeta(+). This was unlike IEL in male mice homozygous for H-2D(b), which had predominantly CD8alphaalpha(+) IEL and few mostly CD8(-) T cells in the spleen. Our results demonstrate that deletion of CD8alphabeta(+) cells in H-Y TCR male mice is dependent on two copies of H-2D(b), whereas the generation of CD8alphaalpha(+) IEL requires only one copy. The existence of CD8alphabeta(+) and CD8alphaalpha(+) IEL in MHC F(1) mice suggests that their generation is not mutually exclusive in cells with identical TCR. Furthermore, our data imply that the level of the restricting MHC class I allele determines a threshold for conventional CD8alphabeta(+) T cell selection in the thymus of H-Y TCR-transgenic mice, whereas the development of CD8alphaalpha(+) IEL is dependent on, but less sensitive to, this MHC class I allele.     

Analysis of the cytotoxic T cell response to H-Y in CBA/H mice

The dose response, kinetics, and target cell specificity of the H-Y immune Tc-cell response of fp-primed CBA/H mice was analyzed. Non-MHC genes were shown to influence responsiveness in fp-primed H-2k strains of mice. The possibility that dominant T-suppressor cells mask responsiveness in i.p. primed CBA/H mice was not confirmed in mixing experiments. Female spleen-adherent cells injected with male spleen cells i.p. elicited H-Y immune Tc-cell responses.     

Abrogation of tolerance to a chronic viral infection

This study documents failure of peripheral tolerance mechanisms in a chronic viral infection and shows that T cell tolerance to a viral Ag seen as self from fetal life can be broken despite the presence of this Ag in extrathymic tissues. Congenital infection of mice with lymphocytic choriomeningitis virus (LCMV) results in T cell tolerance to the virus. Such mice become carriers for life harboring virus in many tissues including the thymus and exhibit no LCMV-specific CTL responses. Our previous studies have documented the curing of this congenitally acquired chronic infection after adoptive transfer of CD8+ T cells from LCMV-immune mice and the presence of host-derived, LCMV-specific CTL in these "cured" carriers. In this study we have examined the mechanism by which these carriers acquired T cell competence and show that these CTL differentiated from the bone marrow after elimination of viral Ag from the thymus. These results demonstrate that even when a chronic infection has been established in utero, the adult thymus retains the ability to restore immunocompetence to the host and to provide protection against reinfection. Surprisingly, these LCMV specific CTL were acquired at a time when infectious virus and intracellular viral Ag, although cleared from the thymus, were readily detectable in organs such as the kidney, testes, and brain. In fact, active viral replication in peripheral tissues was ongoing when these mice acquired new virus-specific T cells. These results show that clearance of virus form the thymus was sufficient to abrogate tolerance to a congenitally acquired chronic infection and that Ag in peripheral tissues did not tolerize newly developing T cells. These findings suggest that mechanisms that operate on immature cells within the thymus to silence self-reactive T cells are effective in induction of tolerance to viruses, but mechanisms of tolerizing mature T cells are likely to breakdown. This has implications for virus-induced autoimmunity and for treatment of chronic infections.     

H-2 effects on cell-cell interactions in the response to single non-H2 alloantigens. IV. Variations in the proliferative response to H-Y and H-3

Individual mice were tested for their proliferation T-cell response to H-Y- and H-3-incompatible stimulator cells in secondary mixed lymphocyte culture. Responders expressing the H-2b haplotype were restricted in their response to stimulators presenting H-Y and H-3 in the context of H-2b. Lymphocytes from individual B10 females proliferated in response to H-Y presented with I-Ab and Db. The ratio of I-Ab/Db-restricted responses varied between individual responders, indicating significant qualitative variation between genetically identical responders. The majority of the proliferative response in all tested mice was restricted to the entire H-2b haplotype suggesting complementation of I-Ab- and Db-region genes in presenting the H-Y antigen. Similar observations were made in the response of individual B10.LP mice to the H-3 antigen. H-3-specific, proliferating T cells were restricted to H-3 antigen presented with KbAb and Db with significant variation between individuals in proliferative response to H-3 plus KbAb and Db. In contrast to the response to H-Y, the proliferative response to H-3 plus H-2b could be accounted for by the summation of the proliferative responses to H-3 plus KbAb and Db. These observations demonstrate that the proliferative response to non-H-2H antigens in the context of I-region determinants is not a sine qua non for the T-cell response to these antigens. Further, the individual qualitative and quantitative variation observed with individual genetically identical mice has strong implications for our knowledge of intrastrain variation in immune responsiveness and the characterization of inbred strains for immune responsiveness.     

Thymus cell traffic induced by antigen stimulation

Spleens of adult mice immunized with either RSA or RGG responded in vitro to DNP-RSA or DNP-RGG, respectively, at a significantly higher rate than spleens of untreated mice. Stimulation in vitro could be achieved by short pulses of the antigen (5–15 min). It was found that thymectomy prior to injection of the carrier protein interfered with the subsequent response in vitro to the hapten-carrier conjugate, and that this was much more pronounced in 8- to 10-day-old mice than in older mice. It is suggested that antigen stimulation in vivo triggers thymus cell migration. Although this is by no means the only mechanism accountable for manifestation of the carrier effect, it may represent a device for amplification of the immune response in vivo.     

The apoptotic protease-activating factor 1-mediated pathway of apoptosis is dispensable for negative selection of thymocytes

Negative selection is a process to delete potentially autoreactive clones in developing thymocytes. Programmed cell death or apoptosis is thought to play an important role in this selection process. In this study, we investigated the role of apoptotic protease-activating factor 1 (Apaf1), a mammalian homologue of CED-4, in programmed cell death during the negative selection in thymus. There was no developmental abnormality in thymocytes from newborn Apaf1(-/-) mice in terms of CD4 and CD8 expression pattern and thymocyte number. Clonal deletion by endogenous male H-Y Ag of Apaf1-deficient thymocytes with transgenic expression of H-Y Ag-specific TCRs (H-Y Tg/Apaf1(-/-) thymocytes) was normally observed in lethally irradiated wild-type mice reconstituted with fetal liver-derived hemopoietic stem cells. Clonal deletion induced in vitro by a bacterial superantigen was also normal in fetal thymic organ culture. Thus, Apaf1-mediated pathway of apoptosis is dispensable for the negative selection of thymocytes. However, H-Y Tg/Apaf1(-/-) thymocytes showed partial resistance to H-Y peptide-induced deletion in vitro as compared with H-Y Tg/Apaf1(+/-) thymocytes, implicating the Apaf1-mediated apoptotic pathway in the negative selection in a certain situation. In addition, the peptide-induced deletion was still observed in H-Y Tg/Apaf1(-/-) thymocytes in the presence of a broad spectrum caspase inhibitor, z-VAD-fmk, suggesting the presence of caspase-independent cell death pathway playing roles during the negative selection. We assume that mechanisms for the negative selection are composed of several cell death pathways to avoid failure of elimination of autoreactive clones.     

Ontogeny of the immune system inSebastiscus marmoratus: Histogenesis of the lymphoid organs and effects of thymectomy

Synopsis The ontogenetic development of the immune system in a marine teleostSebastiscus marmoratus was studied by histological examination and removal of the thymus. The pronephros and the spleen had been differentiated at the time of birth and contained small numbers of haemopoietic cells. In contrast to most vertebrates, the rudiments of the thymus were first visible 1 week post-birth in the dorsoposterior part of the pharynx, the same location as in the adults. However, small lymphocytes first appeared in the thymus of fish at 3 weeks of age, followed by the pronephros at 4 weeks and the spleen at 6 weeks. Complete or partial suppression of the antibody response to sheep red blood cells (SRBC) occurred in fish that were thymectomized at 1.5 months of age and immunized 2 weeks later, and a marked decrease in lymphocytes was observed in the pronephros and spleen. The thymectomy of adult fish also caused reduced serum antibody titres in fish immunized 1 month after the operation. These results suggest that the thymus plays an essential role in the development of the immune system and its functions continue into adult life.     

CD8 T cell expansion and memory differentiation are facilitated by simultaneous and sustained exposure to antigenic and inflammatory milieu

Understanding the factors contributing to the generation of immune memory is important for rational vaccine design. In this study, we addressed the individual and combined roles of Ag and inflammation in sustaining the ability of primed CD8 T cells to clonally expand and differentiate into memory cells. We transferred CD8 T cells that were primed for a brief period into naive mice, mice infected with a pathogen not carrying the specific Ag (inflammation only), mice infected with a pathogen carrying the donor cell-specific Ag (inflammation plus Ag), or into mice exposed to soluble Ag (Ag only). We found that the donor CD8 T cells continued to proliferate in all the four conditions, but their ability to clonally expand and differentiate into memory cells was approximately 1000-fold higher when transferred into mice acutely infected with pathogen carrying the relevant Ag. Memory cells generated under conditions of sustained exposure to inflammation and Ag during the priming phase were superior in their ability to elicit recall responses on a per cell basis. Thus, simultaneous and sustained exposure of donor CD8 T cells to inflammatory and antigenic stimuli, following the initial priming phase, leads to the greatest expansion of CD8 T cells at the peak of the immune response and induces an optimal memory differentiation program. These results suggest that vaccination strategies should attempt to provide sustained exposure to Ag plus inflammation but not either alone following the initial priming.     

Peripheral CD4+ lymphocytes derived from fetal versus adult thymic precursors differ phenotypically and functionally

There is growing evidence that the differentiation processes in the fetal and adult thymus are not identical. However, there is little information on whether these developmental differences influence the properties of mature cells that exit the thymus and seed peripheral lymphoid organs. We have addressed this issue by comparing the development of Ag-specific Th1/Th2 function by fetal vs adult thymic derived CD4(+) cells in the same adoptive adult hosts. Host mice were irradiated and transplanted with 14- to 15-day fetal thymic lobes from Thy-1 congenic mice. Ag (keyhole limpet hemocyanin)-specific Th1/Th2 responses of fetal-derived (donor) or adult-derived (host) CD4(+) cells were analyzed by ELISA following primary or secondary immunization. Fetal-derived cells produced up to 10-fold more of both Th1 (IFN-gamma) and Th2 (IL-4) cytokines than did adult-derived cells. Comparisons of the IL-4:IFN-gamma ratios showed that the responses of fetal-derived cells were Th2-skewed in an Ag dose-dependent manner. At low doses of Ag, the fetal-derived ratio was approximately 5 times higher than the adult-derived ratio. As the Ag dose was increased, the differences between the ratios of the fetal- and adult-derived responses were minimized. These relative responses were established initially during the primary effector phase but were maintained for weeks, into the memory phase of the immune response. Importantly, fetal-derived CD4(+) cells showed these properties whether the fetal thymic precursors matured within the fetal or adult thymic microenvironment. These results demonstrate that cells arising from fetal thymic precursors are functionally different both qualitatively and quantitatively from adult-derived cells.     

Involvement of the SHP-1 tyrosine phosphatase in regulation of T cell selection.

The selection events shaping T cell development in the thymus represent the outcome of TCR-driven intracellular signaling cascades evoked by Ag receptor interaction with cognate ligand. In view of data indicating TCR-evoked thymocyte proliferation to be negatively modulated by the SHP-1 tyrosine phosphatase, a potential role for SHP-1 in regulating selection processes was investigated by analysis of T cell development in H-Y TCR transgenic mice rendered SHP-1 deficient by introduction of the viable motheaten mutation or a dominant negative SHP-1-encoding transgene. Characterization of thymocyte and peripheral T cell populations in H-Y TCR-viable motheaten mice revealed TCR-evoked proliferation as well as the positive and negative selection of H-Y-specific thymocytes to be enhanced in these mice, thus implicating SHP-1 in the negative regulation of each of these processes. T cell selection processes were also augmented in H-Y TCR mice carrying a transgene driving lymphoid-restricted expression of a catalytically inert, dominant-negative form of SHP-1. SHP-1-negative effects on thymocyte TCR signaling were not influenced by co-cross-linking of the CD28 costimulatory and/or CTLA-4 inhibitory receptors and appear, accordingly, to be realized independently of these comodulators. These observations indicate that SHP-1 raises the signaling threshold required for both positive and negative selection and reveal the inhibitory effects of SHP-1 on TCR signaling to be cell autonomous. The demonstrated capacity for SHP-1 to inhibit TCR-evoked proliferation and selection indicate SHP-1 modulatory effects on the magnitude of TCR-generated signal to be a key factor in determining the cellular consequences of TCR-ligand interaction.     

Rapid development of T cell memory

Prime-boost immunization is a promising strategy for inducing and amplifying pathogen- or tumor-specific memory CD8 T cell responses. Although expansion of CD8 T cell populations following the second Ag dose is integral to the prime-boost strategy, it remains unclear when, after priming, memory T cells become competent to proliferate. In this study, we show that Ag-specific CD8 T cells with the capacity to undergo extensive expansion are already present at the peak of the primary immune response in mice. These early memory T cells represent a small fraction of the primary immune response and, at early time points, their potential to proliferate is obscured by large effector T cell populations that rapidly clear Ag upon reimmunization. With sufficient Ag boosting, however, secondary expansion of these memory cells can be induced as early as 5-7 days following primary immunization. Importantly, both early and delayed boosting result in similar levels of protective immunity to subsequent pathogen challenge. Early commitment and differentiation of memory T cells during primary immunization suggest that a short duration between priming and boosting is feasible, providing potential logistic advantages for large-scale prime-boost vaccination of human populations.