Expression in vivo of CD45RA, CD45RB and CD44 on T cell receptor-transgenic CD8+ T cells following immunization

Graded expression of the chemokine receptor CX3CR1 marks differentiation states of human and murine T cells and enables cross-species interpretation

T cells differentiate into functionally distinct states upon antigen encounter. These states are delineated by different cell surface markers for murine and human T cells, which hamper cross-species translation of T cell properties. We aimed to identify surface markers that reflect the graded nature of CD8+ T cell differentiation and delineate functionally comparable states in mice and humans. CITEseq analyses revealed that graded expression of CX3CR1, encoding the chemokine receptor CX3CR1, correlated with the CD8+ T cell differentiation gradient. CX3CR1 expression distinguished human and murine CD8+ and CD4+ T cell states, as defined by migratory and functional properties. Graded CX3CR1 expression, refined with CD62L, accurately captured the high-dimensional T cell differentiation continuum. Furthermore, the CX3CR1 expression gradient delineated states with comparable properties in humans and mice in steady state and on longitudinally tracked virus-specific CD8+ T cells in both species. Thus, graded CX3CR1 expression provides a strategy to translate the behavior of distinct T cell differentiation states across species.

Hitting the Holy Grail of Hematopoietic Cell Transplantation with Naive T-Cell Depleted Allografts-Graft Engineered Hematopoietic Stem Cell Transplant

Hematopoietic cell transplant is a potentially curative procedure for many benign and malignant conditions. The efficacy of allogeneic transplant relies in part on the cytotoxicity of the conditioning regimen and the graft versus tumor effect mediated by alloreactive donor T cells; the same cells are also implicated in the development of graft versus host disease (GVHD). Selective identification and depletion of the T cells implicated in GVHD, while preserving the T cells responsible for graft versus tumor effect has been the focus of many research groups in the recent years. Here we briefly review the physiology of T cells in transplantation, and comment on a recent clinical trial published by Bleakly et al. using a novel way of graft engineered allograft via naïve T cell depletion.

Shb deficient mice display an augmented TH2 response in peripheral CD4+ T cells

Background

Shb, a ubiquitously expressed Src homology 2 domain-containing adaptor protein has previously been implicated in the signaling of various tyrosine kinase receptors including the TCR. Shb associates with SLP76, LAT and Vav, all important components in the signaling cascade governing T cell function and development. A Shb knockout mouse was recently generated and the aim of the current study was to address the importance of Shb deficiency on T cell development and function.

Results

Shb knockout mice did not display any major changes in thymocyte development despite an aberrant TCR signaling pattern, including increased basal activation and reduced stimulation-induced phosphorylation. The loss of Shb expression did however affect peripheral CD4+ T_H cells resulting in an increased proliferative response to TCR stimulation and an elevated IL-4 production of naïve T_H cells. This suggests a T_H2 skewing of the Shb knockout immune system, seemingly caused by an altered TCR signaling pattern.

Conclusion

Our results indicate that Shb appears to play an important modulating role on TCR signaling, thus regulating the peripheral CD4+ T_H2 cell response.

Regulatory T cells can prevent memory CD8+ T-cell-mediated rejection following polymorphonuclear cell depletion

Accumulating evidence suggests that alloreactive memory T cells (Tm) may form a barrier to tolerance induction in large animals and humans due in part to a resistance to suppression by Treg. However, why Tm are resistant to regulation and how the Tm response to an allograft differs from that of naïve T cells, which are amenable to suppression by Treg, remains unknown. Here, we show that accelerated graft rejection mediated by CD8⁺ Tm was due to the enhanced recruitment of PMN to allografts in a mouse skin allograft model. Importantly, depletion of PMN slowed the kinetics of (but did not prevent) rejection mediated by Tm and created a window of opportunity that allowed subsequent suppression of rejection by Treg. Taken together, we conclude that CD8⁺ Tm are not intrinsically resistant to suppression by Treg but may rapidly inflict substantial graft damage before the establishment of regulatory mechanisms. These data suggest that if Tm responses can be attenuated transiently following transplantation, Treg may be able to maintain tolerance through the suppression of both memory and naïve alloreactive T-cell responses in the long term.

Intranasal immunization with vaccine vector Streptococcus gordonii elicits primed CD4+ and CD8+ T cells in the genital and intestinal tracts

Generation of primed T cells is crucial for the development of optimal vaccination strategies. Using a TCR-transgenic CD4(+) and CD8(+) T cell adoptive transfer model, we demonstrate that a single nasal immunization with recombinant Streptococcus gordonii induces antigen-specific primed T cells in lymph nodes draining the genital and intestinal tracts with about 80% of CD4(+) and 50% of CD8(+) proliferating cells. T cell clonal expansion was also observed in cervical lymph nodes, draining the immunization site, and in the spleen. The modulation of CD44 and CD45RB marker expression indicated that proliferating T cells were activated. Proliferation in distal mesenteric and iliac lymph nodes and in the spleen was observed 5 days after nasal immunization, while in draining cervical lymph nodes proliferation peaked already at day 3. The division profile of transgenic T cells observed in iliac and mesenteric lymph nodes was discontinuous, showing the lack of early cell divisions. The kinetics of T cell clonal expansion, the discontinuous division profile and the modulation of migration markers such as CD62L suggest that activated antigen-specific T cells disseminate from the immunization site to distal intestinal and genital tracts. These data demonstrate the efficacy of nasal immunization with recombinant S. gordonii in eliciting CD4(+) and CD8(+) T cell priming not only in draining sites, but also in the genital and intestinal tracts and in the spleen.

Dopamine selectively induces migration and homing of naive CD8+ T cells via dopamine receptor D3

The nervous systems affect immune functions by releasing neurohormones and neurotransmitters. A neurotransmitter dopamine signals via five different seven-transmembrane G protein-coupled receptors termed D1 to D5. The secondary lymphoid tissues are highly innervated by sympathetic nerve fibers that store dopamine at high contents. Lymphocytes also produce dopamine. In this study, we examined expression and function of dopamine receptors in lymphocytes. We found that D3 was the predominant subtype of dopamine receptors in the secondary lymphoid tissues and selectively expressed by naive CD8+ T cells of both humans and mice. Dopamine induced calcium flux and chemotaxis in mouse L1.2 cells stably expressing human D3. These responses were almost completely inhibited by pertussis toxin, indicating that D3 was coupled with the Galphai class of G proteins. Consistently, dopamine selectively induced chemotactic responses in naive CD8+ T cells of both humans and mice in a manner sensitive to pertussis toxin and D3 antagonists. Dopamine was highly synergistic with CCL19, CCL21, and CXCL12 in induction of chemotaxis in naive CD8+ T cells. Dopamine selectively induced adhesion of naive CD8+ T cells to fibronectin and ICAM-1 through activation of integrins. Intraperitoneal injection of mice with dopamine selectively attracted naive CD8+ T cells into the peritoneal cavity. Treatment of mice with a D3 antagonist U-99194A selectively reduced homing of naive CD8+ T cells into lymph nodes. Collectively, naive CD8+ T cells selectively express D3 in both humans and mice, and dopamine plays a significant role in migration and homing of naive CD8+ T cells via D3.

A subset of CD8 memory T cells from old mice have high levels of CD28 and produce IFN-gamma

Using carboxyfluorescein diacetate succinimidyl ester (CFSE)-tagged cells to measure proliferation in vivo, we found that only memory CD8(+) cells from mice older than 18 months gave measurable levels of proliferation and that the proportion of memory CD8(+) T cells able to proliferate in a nonirradiated recipient increased with age. CD8 cells that had proliferated in vivo contained higher levels of CD28 when compared to CD8 cells that had not divided. Cells with high levels of CD28 were preferentially able to divide in nonirradiated recipients. Using ex vivo intracellular staining analysis, we determined that most of the CD8(+) T cells that were capable of dividing in vivo produced IFN-gamma after isolation from recipient mice or their original host. These studies thus document the presence in aged mice of a population of CD28(hi) CD8(+) cells whose ability to proliferate in vivo without antigenic stimulation and to produce IFN-gamma may be involved in immune regulation.

Homeostatic expansion and phenotypic conversion of naïve T cells in response to self peptide/MHC ligands

Recent data suggest that survival of resting, naïve T cells requires an interaction with self MHC molecules. From analysis of the class I MHC-restricted T cell receptor transgenic strain OT-I, we report a different response. Rather than merely surviving, these T cells proliferated slowly after transfer into T-depleted syngeneic hosts. This expansion required both T cell "space" and expression of normal levels of self class I MHC molecules. Furthermore, we demonstrate that during homeostatic expansion in a suitable environment, naïve phenotype (CD44(low)) OT-I T cells converted to memory phenotype (CD44(med/high)), despite the absence of foreign antigenic stimulation. On the other hand, cells undergoing homeostatic expansion did not acquire cytolytic effector function. The significance of these data for reactivity of T cells with self peptide/MHC ligands and the implications for normal and abnormal T cell homeostasis are discussed.

T-cell activation, proliferation, and memory after cardiac transplantation in vivo

OBJECTIVE

To study the response of alloantigen (H2Kb)-specific T cells to a H2b+ cardiac allograft in vivo.

SUMMARY BACKGROUND DATA

The response of T cells to alloantigen has been well characterized in vitro but has proved more difficult to assess in vivo. The aim of these experiments was to develop a model of T-cell-mediated rejection where the response of T cells after transplantation of a cardiac allograft could be followed in vivo.

METHODS

Purified CD8+ T cells from H2Kb-specific TCR transgenic mice (BM3; H2k) were adoptively transferred into thymectomized, T-cell-depleted CBA/Ca (H2k) mice. These mice were then transplanted with a H2Kb+ cardiac allograft. Using four-color flow cytometry, the proliferative response, modulation of activation markers, and potential cytokine production of the H2Kb-specific T cells was assessed after transplantation.

RESULTS

Consistent rejection of H2Kb+ cardiac allografts required the transfer of at least 6 x 10(6) CD8+ H2Kb-specific T cells. Short-term analyses revealed that the transgenic-TCR+/ CD8+ T cells proliferated and became activated after transplantation of an H2Kb+ cardiac allograft. Fifty days after transplantation, the transgenic-TCR+/CD8+ T cells remained readily detectable, bore a predominantly memory phenotype (CD44hi), and rapidly produced interleukin 2 and interferon-gamma on in vitro restimulation.

CONCLUSIONS

These data show that the activation of alloantigen-specific T cells can be followed in vivo in short-term and long-term experiments, thereby providing a unique opportunity to study the mechanisms by which T cells respond to allografts in vivo.

Expanded cohorts of maternal CD8+ T-cells specific for paternal MHC class I accumulate during pregnancy

A recombinant H-2Kb transgene, GK, containing the human HLA-G gene promoter is expressed throughout the trophoblast when inherited paternally. Male GK transgenic mice were mated with female T-cell receptor (TCR) transgenic mice to assess the effect of fetal H-2Kb expression on maternal H-2Kb-specific CD8+ T-cells during pregnancy. The number of maternal H-2Kb-specific CD8+ T-cells in spleen increased significantly (approximately 3-fold) 10 days post coitus when the GK transgene was inherited from the father. A smaller (approximately 2-fold) increase was observed in the spleen of pregnant females mated with C57BL/10 (H-2b) males. No increase was observed in mothers mated to syngeneic male mice. In both cases where expanded cohorts of maternal CD8+ T-cells were observed the amount of surface CD8 and to a lesser extent, TCR molecules was reduced. No change in the amount of surface CD44 or CD45RB was detected when levels were compared with naive T-cells from control virgin female mice. Expanded cohorts of CD8+ T-cells were also detected in para-aortic and inguinal lymph nodes draining the uterus but no changes were observed in mesenteric lymph nodes. This study concludes that maternal CD8+ T-cells are exposed to paternally inherited fetal MHC class I antigens during pregnancy. Moreover, the phenotype of the CD8+ T-cells in maternal spleen and lymph nodes that drain the uterus is not typical of activated, antigen-experienced T-cells suggesting that contact with fetal H-2Kb molecules induces a state of functional unresponsiveness.

Evolution of a complex T cell receptor repertoire during primary and recall bacterial infection

The mechanisms underlying the genesis and maintenance of T cell memory remain unclear. In this study, we examined the evolution of a complex, antigen-specific T cell population during the transition from primary effector to memory T cells after Listeria monocytogenes infection. T cell populations specific for listeriolysin O (LLO)91-99, the immunodominant epitope recognized by H2-Kd-restricted T lymphocytes, were directly identified in immune spleens using tetrameric H2-Kd-epitope complexes. The T cell receptor (TCR) Vbeta repertoire of specific T cells was determined by direct, ex vivo staining with a panel of mAbs. We demonstrate that LLO91-99-specific, primary effector T cell populations have a diverse TCR Vbeta repertoire. Analyses of memory T cell populations demonstrated similar TCR diversity. Furthermore, experiments with individual mice demonstrated that primary effector and memory T cells have indistinguishable TCR repertoires. Remarkably, after reinfection with L. monocytogenes, LLO91-99-specific T cells have a narrower TCR repertoire than do primary effector or memory T cells. Thus, our studies show that the TCR repertoire of primary effector T lymphocytes is uniformly transmitted to memory T cells, whereas expansion of memory T cells is selective.

Adhesion molecule phenotype of T lymphocytes in inflamed CNS

The phenotype of T cells in the central nervous system (CNS) in two models of chronic inflammation (experimental allergic encephalomyelitis and Corynebacterium parvum-induced inflammation) was compared to that of T cells in gut and chronically inflamed subcutaneous tissue and lung. CNS T cells display a similar phenotype in both inflammatory models, and are phenotypically unique compared to T cells from the other inflamed tissues. T cells from inflamed CNS are mainly CD4+ and are the only population examined that express a typical activated/memory phenotype: CD44high/LFA-1high/ICAM-1high/CD45RBlow. The CNS T cells are alpha4beta7-integrin(negative), but express alpha4-integrin and activated beta1 integrin, suggesting expression of the alpha4beta1-heterodimer in an activated state. In contrast, most T cells in gut express low levels of activated beta1 integrin. The CNS T cells lack expression of alpha6 and alphaE integrin chains and L-selectin. In inflamed CNS and inflamed subcutaneous tissue, approximately 50% of T cells express high affinity ligands for P-selectin while fewer than 10% express high affinity ligands for E-selectin. In summary, our data show that, independent of the inflammatory stimulus, T cells recruited into the inflamed CNS are phenotypically distinct from T cells in other inflamed tissues. This finding leads us to hypothesize the existence of a phenotypically distinct 'CNS-seeking' T lymphocyte population.

Selective modulation of T cell memory markers CD62L and CD44 on murine draining lymph node cells following allergen and irritant treatment

Naive and activated T cells are known to express different adhesion molecules and are thought to exhibit different migratory patterns that result from their expression of discrete adhesion molecules. Two adhesion molecules that have been associated with differentiating naive and activated/memory T cells are CD62L (L-selectin) and CD44 (H-CAM). It has been demonstrated previously that naive T cells express a CD62LhiCD44lo phenotype, whereas memory T cells exhibit a CD62LloCD44hi phenotype. The purpose of the present investigation was to determine whether chemical allergens, in contrast to irritants, would induce a CD62LloCD44hi phenotype on CD4 and/or CD8 T cells isolated from draining lymph nodes (DLN) of treated mice. Mice were treated on the ears for 3 consecutive days with concentrations of allergens or irritants which caused an increase in the number of DLN cells. The DLN were excised 72 hr following the final chemical treatment and cells prepared for analysis by flow cytometry. In mice treated with the allergen trinitrochlorobenzene an increase in the percentage of CD4+ cells expressing CD62LloCD44(hi) was observed compared to cells isolated from mice treated with the irritant benzalkonium chloride or vehicle treated mice. Mice treated with dintrochlorobenzene had an increase in the percentage of CD4+ cells expressing CD62LloCD44(hi) that was dose dependent and peaked at 72 hr following the final allergen treatment. Concomitant with changes on CD4+ cells, increases in the percentage of CD8+ cells expressing CD62LloCD44hi were observed with allergens, but not with irritants. Increases in the percentage of CD4+ and CD8+ cells expressing CD62LloCD44(hi) were observed with other allergens including oxazolone and alpha-hexylcinnamaldehyde, but not the irritant sodium lauryl sulfate. These data demonstrate that allergens, but not irritants, cause a selective and reproducible increase in the percentage of CD4+ and CD8+ cells expressing the T cell activation/memory phenotype CD62LloCD44hi. Analysis of T cell activation/memory markers may be useful in differentiating allergen and irritant responses in the draining lymph nodes of chemically treated mice.

Immunological memory

Most of the antigen-specific T and B cells participating in the primary immune response are rapidly eliminated, but some of the cells survive and become long-lived memory cells. There have been a number of recent developments on the features and functions of memory cells.

Multiple sites of post-activation CD8+ T cell disposal

Antigen-triggered activation of T cells leads to a sequence of differentiation steps including up-regulation of activation markers, blast formation, proliferation, delivery of effector functions, and ultimately apoptosis. It is still controversial in which anatomical site activation-induced apoptosis and elimination of T cells occur. To address this question, we used mice transgenic for a T cell receptor (F5) specific for an influenza virus nucleoprotein peptide (NP68) presented on the major histocompatibility complex H-2 Db molecule. Accumulation and apoptosis of T cells was studied using terminal deoxynucleotidyl transferase-mediated dUTP-biotin nick end-labeling in situ combined with immunohistology after intraperitoneal injection of the cognate peptide into F5 mice which are wild type or deficient for Rag-1. After 4 days of peptide treatment, large perivascular infiltrations of CD8+ cells were observed in liver, lung, and kidney of F5 mice. CD8+ cell numbers were also increased in skin and small intestine, but not in brain or heart muscle of peptide-treated animals. The infiltrating CD8+ cells show an increased percentage of apoptosis in liver, lung and, most strikingly, the kidney. These data suggest that in the F5 system, T cell disposal after activation occurs in a number of organs. Essentially identical findings were obtained in Rag-1(+/+) and Rag-1(-/-) F5 mice, suggesting that the deletion mechanism did not involve other T or B cells.

Resting memory CD8+ T cells are hyperreactive to antigenic challenge in vitro

The characteristics of CD8+ T cells responsible for memory responses are still largely unknown. Particularly, it has not been determined whether different activation thresholds distinguish naive from memory CD8+ T cell populations. In most experimental systems, heterogeneous populations of primed CD8+ T cells can be identified in vivo after immunization. These cells differ in terms of cell cycle status, surface phenotype, and/or effector function. This heterogeneity has made it difficult to assess the activation threshold and the relative role of these subpopulations in memory responses. In this study we have used F5 T cell receptor transgenic mice to generate a homogeneous population of primed CD8+ T cells. In the F5 transgenic mice, peptide injection in vivo leads to activation of most peripheral CD8+ T cells. In vivo BrdU labeling has been used to follow primed T cells over time periods spanning several weeks after peptide immunization. Our results show that the majority of primed CD8+ T cells generated in this system are not cycling and express increased levels of CD44 and Ly6C. These cells remain responsive to secondary peptide challenge in vivo as evidenced by short term upregulation of activation markers such as CD69 and CD44. The activation thresholds of naive and primed CD8+ T cells were compared in vitro. We found that CD8+ T cells from primed mice are activated by peptide concentrations 10-50-fold lower than naive mice. In addition, the kinetics of interleukin 2R alpha chain upregulation by primed CD8+ T cells differ from naive CD8+ T cells. These primed hyperresponsive CD8+ T cells might play an important role in the memory response.

Unrepresentative behavior of T cell receptor-transgenic CD4+ T cells upon adoptive transfer: lack of need for priming and an extended booster dose-response

The response of CD4+ T cells taken from DO11.10 alpha beta TCR-transgenic mice to their specific antigen, ovalbumin, was examined in an adoptive transfer system. Read out was the % frequency of KJI-26.1+ (clonotype positive) cells within the Thy-1.2+ (T cell) population in lymph nodes. Control experiments indicated that these cells were uniformly CD4+. Immunizing the transgenic mice had no detectable effect on this frequency. Furthermore, the frequency in recipients of adoptively transferred lymph node cells was not affected by priming of the donors with ovalbumin by various procedures. Transfers were into syngeneic SCID recipients, except in one experiment, where irradiated recipients were shown to behave in the same way. Examining the effect of varying the amount of booster antigen, the response increased slowly with dose, up to a plateau in the range of 10-100 mg ovalbumin. The lack of need for priming is unusual, in comparison with an adoptive transfer of non-transgenic cells, as is the extended dose response range with such a high optimum dose. This enhanced responsiveness is interpreted in terms of a lack of down-immunoregulation in these transgenic mice.