Decrease in pool of T lymphocytes with surface phenotypes of effector and central memory cells under Influence of TCR transgenic β-chain expression

Peripheral T lymphocytes can be subdivided into naive and antigen-experienced T cells. The latter, in turn, are represented by effector and central memory cells that are identified by different profiles of activation markers expression, such as CD44 and CD62L in mice. These markers determine different traffic of T lymphocytes in the organism, but hardly reproduce real antigenic experience of a T lymphocyte. Mechanisms of homeostasis maintenance of T lymphocytes with different activation phenotypes remain largely unknown. To investigate impact of T cell receptor (TCR) transgenic chains on formation of T lymphocytes, their peripheral survival and activation surface phenotypes, we have generated the transgenic mouse strain expressing transgenic β-chain of TCR 1D1 (belonging to the Vβ6 family) on the genetic background B10.D2(R101). Intrathymic development of T cells in these transgenic mice is not impaired. The repertoire of peripheral T lymphocytes in these mice contains 70–80% of T cells expressing transgenic β-chain and 20–30% of T cells expressing endogenous β-chains. The ratio of peripheral CD4⁺CD8^? and CD4^?CD8⁺ T lymphocytes remained unchanged in the transgenic animals, but the percent of T lymphocytes with the “naive” phenotype CD44^?CD62L⁺ was significantly increased, whereas the levels of effector memory CD44⁺CD62L^? and central memory CD44⁺CD62L⁺ T lymphocytes were markedly decreased in both subpopulations. On the contrary, T lymphocytes expressing endogenous β-chains had surface phenotype of activated T cells CD44⁺. Thus, for the first time we have shown that the pool of T lymphocytes with different activation phenotypes depends on the structure of T cell receptors.     

Signal transduction via the T cell antigen receptor in naïve and effector/memory T cells

T cells play an indispensable role in immune defense against infectious agents, but can also be pathogenic. These T cells develop in the thymus, are exported into the periphery as naïve cells and participate in immune responses. Upon recognition of antigen, they are activated and differentiate into effector and memory T cells. While effector T cells carry out the function of the immune response, memory T cells can last up to the life time of the individual, and are activated by subsequent antigenic exposure. Throughout this life cycle, the T cell uses the same receptor for antigen, the T cell Receptor, a complex multi-subunit receptor. Recognition of antigen presented by peptide/MHC complexes on antigen presenting cells unleashes signaling pathways that control T cell activation at each stage. In this review, we discuss the signals regulated by the T cell receptor in naïve and effector/memory T cells.     

Calreticulin transacetylase catalyzed modification of the TNF-α mediated pathway in the human peripheral blood mononuclear cells by polyphenolic acetates

Polyphenols, coumarin (1,2-benzopyrone) and chromone (1,4-benzopyrone), are naturally occurring constituent of variety of plant species. They have attracted immense interest because of their diverse pharmacological activities. Not much was known about biological activities of acetyl derivative (polyphenolic acetates) of parent polyphenols. In previous investigations, we have conclusively established calreticulin transacetylase catalyzed activation of endothelial nitric oxide synthase (eNOS) by polyphenolic acetates. In the present work, calreticulin transacetylase of human peripheral blood mononuclear cells was characterized with respect to specificity for various polyphenolic acetates and its role in the activation of TNF-α induced nitric oxide synthase (iNOS). Peripheral blood mononuclear cells incubated with a model polyphenolic acetate, 7,8-diacetoxy-4-methylcoumarin (DAMC), along with l-arginine caused activation of NOS. The incubation of peripheral blood mononuclear cells with TNF-α and DAMC resulted in increased production of NO as compared to TNF-α alone. This increased NO production was attenuated by l-Nω-nitro-l-arginine methyl ester (l-NAME), a well known non-specific inhibitor of NOS, and 1400W (N-[3-(aminomethyl) benzyl] acetamidine), a specific inhibitor of human iNOS. These results substantiate the CRTAase catalyzed activation of iNOS. Further, expression of NOS isoforms by semi-quantitative PCR and real-time RT-PCR confirms the preponderance of iNOS in TNF-α treated peripheral blood mononuclear cells over the untreated one. It was also observed that polyphenolic acetates inhibit TNF-α mediated release of IL-6 from peripheral blood mononuclear cells.     

Impaired activation of IFN-γCD4 T cells in peripheral blood of patients with dilated cardiomyopathy

Viral persistence and autoantibodies are pathogenic components in patients with idiopathic dilated cardiomyopathy (DCM). The aim was to evaluate T-cell function in DCM using different flow cytometry based detection techniques. Following stimulation, the frequency of IFN-γ-producing CD4⁺ T cells was significantly lower in patients compared with controls. In contrast, the frequency of IL-4 producing CD4⁺ T cells was no different. In supernatants of cultured PBMC, IFN-γ and IL-10 were significantly lower in patients. In addition, lymphocyte proliferation was significantly lower in patients compared with controls, whereas major lymphocyte subsets were not different. IFN-γ and IL-10 are key cytokines in the ability to mount protective immune responses and to maintain self-tolerance. A reduced activation of T-helper 1 (IFN-γ producing) cells and a decreased capacity to produce IL-10, found in the present study, could explain parts of the autoimmune features seen in patients with DCM.     

miRNA profiling of naïve, effector and memory CD8 T cells

microRNAs have recently emerged as master regulators of gene expression during development and cell differentiation. Although profound changes in gene expression also occur during antigen-induced T cell differentiation, the role of miRNAs in the process is not known. We compared the miRNA expression profiles between antigen-specific na?ve, effector and memory CD8+ T cells using 3 different methods--small RNA cloning, miRNA microarray analysis and real-time PCR. Although many miRNAs were expressed in all the T cell subsets, the frequency of 7 miRNAs (miR-16, miR-21, miR-142-3p, miR-142-5p, miR-150, miR-15b and let-7f) alone accounted for approximately 60% of all miRNAs, and their expression was several fold higher than the other expressed miRNAs. Global downregulation of miRNAs (including 6/7 dominantly expressed miRNAs) was observed in effector T cells compared to na?ve cells and the miRNA expression levels tended to come back up in memory T cells. However, a few miRNAs, notably miR-21 were higher in effector and memory T cells compared to na?ve T cells. These results suggest that concomitant with profound changes in gene expression, miRNA profile also changes dynamically during T cell differentiation. Sequence analysis of the cloned mature miRNAs revealed an extensive degree of end polymorphism. While 3'end polymorphisms dominated, heterogeneity at both ends, resembling drosha/dicer processing shift was also seen in miR-142, suggesting a possible novel mechanism to generate new miRNA and/or to diversify miRNA target selection. Overall, our results suggest that dynamic changes in the expression of miRNAs may be important for the regulation of gene expression during antigen-induced T cell differentiation. Our study also suggests possible novel mechanisms for miRNA biogenesis and function.     

Microarray analysis of differential gene expression profiles in blood cells of naturally BLV-infected and uninfected Holstein–Friesian cows

The aim of the present study was to examine gene expression changes in response to bovine leukemia virus (BLV) infection, in an effort to determine genes that take a part in molecular events leading to persistent lymphocytosis (PL), and to better define genes involved in host response to BLV infection. Using bovine 70-mer oligonucleotide spotted microarrays (BLOPlus) and qRT-PCR validation, we studied global gene expression profiles in blood cells in vivo of 12 naturally BLV-infected Polish Holstein cows, and 12 BLV non-infected controls of the same breed and reared in herds with high BLV seroprevalence. With an arbitrary cut-off value of 1.5-fold change in gene expression, we identified the down-regulation of 212 genes (M value ≤?0.585) and the up-regulation of 158 genes (M value of ≥0.585) at 1% false discovery rate in BLV-positive animals in comparison to the BLV-negative group. The gene set enrichment analysis demonstrated that the differentially expressed (DE) genes could be classified to diverse biological processes, including immune response of host blood cells. Interestingly, our data indicated the potential involvement of the innate immunity, including complement system activation, NK-cell cytotoxicity and TREM-1 signaling, during the BLV-induced pathogenesis. We showed the occurrence of numerous regulatory processes that are targeted by BLV-infection. We also suggest that a complex network of interrelated pathways is disturbed, causing the interruption of the control of B-cell proliferation and programmed cell death.     

Role of adhesion molecules in recruitment of Vδ1 T cells from the peripheral blood to the tumor tissue of esophageal cancer patients

 The mechanism responsible for tissue specific localization of γδ T cell subsets is not well understood. In order to explain the sequestration of specific γδ T cell subsets in the peripheral blood and tumor tissue of patients with esophageal cancer, we examined the function and expression of adhesion molecules on these cells. A hierarchy in the expression of adhesion molecules was observed. In vitro activated γδ T cells showed dominant expression of LFA-1 (CD11a), VLA-α4 (CD49d), intermediate expression of VLA-α5 (CD49e) and L-selectin (CD62L), but low expression of CD44v6 and α_Eβ₇ (CD103). It was observed that the γδ T cells use LFA-1, L-selectin and CD44v6 to bind to squamous cell carcinoma (SCC) cells, whereas they adhere to fibroblast cells using LFA-1, VLA-α4 and VLA-α5. Vδ1 T cell subsets from the peripheral blood γδ T cells utilize a larger array of adhesion molecules, namely LFA-1, VLA-α4, VLA-α5, L-selectin and α_Eβ_7, to bind to SCC cells compared to the restricted usage of LFA-1, L-selectin and CD44v6 by the Vδ2 T cells. Flow cytometric analysis of tumor infiltrating lymphocytes from the esophageal tumors confirmed the selective accumulation of Vδ1⁺γδ T cells in the tumor compartment. It thus appears that adhesion molecules expressed on these lymphocytes play an important role in the recruitment and retention of Vδ1 T cells in the tumor milieu. Received: 27 November 2000 / Accepted: 1 March 2001     

Production of interleukin-1β by periodic acid-oxidized human peripheral blood mononuclear cells

Interleukin-1 (IL-1) production by periodic acid (H₅IO₆)-oxidized human peripheral blood mononuclear (PBMN) cells was assessed by the thymocyte co-mitogenesis assay. Maximum IL-1 levels ( 1.2 U/ml) in the conditioned media of PBMN cells were registered within the first 24 hrs post-oxidation, whereas no IL-1 was detected in the media from 24 hrs control cultures. Thymocyte proliferation, driven by periodic acid-induced IL-1, was abolished by an antibody to IL-1alpha and IL-1. Quantitative analysis of IL-1-containing medium by radioimmunoassay (RIA) indicated that IL-1 comprised about 80% of total IL-1. Partial characterization of H₅IO₆-induced IL-1 indicated that it was identical to IL-1 produced by lipopolysaccharide-stimulated macrophages. It is concluded that oxidation of human PBMN cells by H₅IO₆ triggers synthesis and release of IL-1, most of which was in its IL-1 form.     

Decreases in percentages of naïve CD4 and CD8 T cells and increases in percentages of memory CD8 T-cell subsets in the peripheral blood lymphocyte populations of A-bomb survivors

Our previous studies have revealed a clear dose-dependent decrease in the percentage of na?ve CD4 T cells that are phenotypically CD45RA+ in PBL among A-bomb survivors. However, whether there is a similar radiation effect on CD8 T cells has remained undetermined because of the unreliability of CD45 isoforms as markers of na?ve and memory subsets among the CD8 T-cell population. In the present study, we used double labeling with CD45RO and CD62L for reliable identification of na?ve and memory cell subsets in both CD4 and CD8 T-cell populations among 533 Hiroshima A-bomb survivors. Statistically significant dose-dependent decreases in the percentages of CD45RO-/CD62L+ na?ve cells were found in the CD8 T-cell population as well as in the CD4 T-cell population. Furthermore, the percentages of CD45RO+/CD62L+ and CD45RO+/CD62L- memory T cells were found to increase significantly with increasing radiation dose in the CD8 T-cell population but not in the CD4 T-cell population. These results suggest that the prior A-bomb exposure has induced long-lasting deficits in both na?ve CD4 and CD8 T- cell populations along with increased proportions of these particular subsets of the memory CD8 T-cell population.     

Genetic variations at the T cell receptor γ locus in circulating peripheral blood mononuclear cells of clinically categorised leprosy patients

The allelic polymorphisms at exon 3 and exon 2 of the T cell receptor (TCR) Cγ2 (TRGC2) gene, generating 18-kb and 5.4-kb HindIII fragments, respectively, were found to be more frequent in multibacillary leprosy patients than in the controls (P < 0.005 and P < 0.001, respectively) when screened with the IDP2.11 probe. The frequencies of heterozygotes for the 18-kb allele and homozygotes for the 5.4-kb allele were found to be significantly higher in the multibacillary patients than in the controls (P < 0.001). Interestingly, the 8.0-kb allele, originating from the triplication of exon 2 of Cγ2, was observed exclusively in the paucibacillary leprosy patients. Further, when DNA samples were screened with the pH60 probe for the HindIII RFLP at the TCR Jγ2 (TRGJ2) gene segment, the 2.1-kb allele was again more prevalent in leprosy patients with the multibacillary form of the disease than in the paucibacillary patients and the controls (P < 0.025). The frequency of homozygotes for the 2.1-kb allele was also significantly higher in the multibacillary patients than in the paucibacillary patients (P < 0.010) and the controls (P < 0.025). A significant difference was observed in the frequencies of detectable rearrangements involving the Vγ7/8 and Vγ9 gene segments at the γ locus between circulating peripheral blood mononuclear cells of the multibacillary leprosy patients and the controls. These rearrangements were detected less frequently in the multibacillary patients (P < 0.001 for Vγ7/8 and P < 0.005 for Vγ9). Received: 28 October 1996 / Accepted: 13 February 1997     

Abnormal activation of the Akt-GSK3β signaling pathway in peripheral blood T cells from patients with systemic lupus erythematosus

Systemic lupus erythematosus (SLE) is a chronic autoimmune disease accompanied by the activation and proliferation of T cells and B cells. In this study, we found that the distributions of lymphocytes obtained from patients with SLE or SLE with renal disease (RSLE) were reduced in the G₀/G₁ phase and were elevated in the S phase after phytohemagglutinin treatment. Increased expression of CDK2 and decreased expression of cyclin-dependent kinase inhibitors p27^Kip1 and p21^WAF1/CIP1 were observed in RSLE and SLE lymphocytes. The phosphorylation levels of Akt473 and GSK3β (ser9) were increased in lymphocytes from the patients. Moreover, inhibition of GSK3β with lithium chloride or SB216763 induced T cell proliferation, and the most significant effects were observed in RSLE lymphocytes. These results indicate that upregulation of CDKs and downregulation of p27^Kip1 and p21^WAF1/CIP1 increased the proliferation of T lymphocytes in SLE patients. Abnormal activation of the Akt–GSK3β signaling pathway increased the proliferation of lupus lymphocytes.     

Rapamycin increases the yield and effector function of human γδ T cells stimulated in vitro

Clinical strategies to exploit Vγ2Vδ2 T cell responses for immunotherapy are confronted with short-term increases in cell levels or activity and the development of anergy that reduces the response to therapy with succeeding treatments. We are exploring strategies to increase the yield and durability of elicited Vγ2Vδ2 T cell responses. One approach focuses on the mammalian target of rapamycin (mTOR), which is important for regulating T cell metabolism and function. In Vγ2Vδ2 T cells, mTOR phosphorylates the S6K1 and eIF4EBP1 signaling intermediates after antigen stimulation. Rapamycin inhibited these phosphorylation events without impacting Akt or Erk activation, even though specific inhibition of Akt or Erk in turn reduced the activation of mTOR. The effects of rapamycin on the T cell receptor signaling pathway lead to increased proliferation of treated and antigen-exposed Vγ2Vδ2 cells. Rapamycin altered the phenotype of antigen-specific Vγ2Vδ2 cells by inducing a population shift from CD62L + CD69− to CD62L-CD69+, higher expression of CD25 or Bcl-2, lower levels of CCR5 and increased resistance to Fas-mediated cellular apoptosis. These changes were consistent with rapamycin promoting cell activation while decreasing the susceptibility to cell death that might occur by CCR5 or Fas signaling. Rapamycin treatment during antigen-stimulation of Vγ2Vδ2 T cells may be a strategy for overcoming current obstacles in tumor immunotherapy.     

Expression of β-1,4-galactosyltransferase-I affects cellular adhesion in human peripheral blood CD4 T cells

β-1,4-galactosyltransferase-I (β-1,4-GalT-I) has two isoforms that differ only in the length of their cytoplasmic domains. In this study, we found that both the long and short isoforms of β-1,4-GalT-I were expressed in human CD4⁺ T lymphocytes, and localized in the cytoplasm and on the plasma membrane. The expression level of β-1,4-GalT-I was increased in CD4⁺ T cells after stimulation with interleukin (IL)-2, and was further increased after stimulation with IL-2 + IL-12, but decreased after stimulation with IL-2 + IL-4 when compared to stimulation with IL-2 alone. We also demonstrated that the cellular adhesion of CD4⁺ T cells was significantly increased upon cytokine stimulation, and was inhibited by α-lactalbumin, indicating that the increase in adhesion was positively correlated with the expression and activity of long β-1,4-GalT-I. Collectively, the data suggest that β-1,4-GalT-I plays a role in the cellular adhesion of CD4⁺ T cells.     

Leishmania (Viannia) braziliensis amastigotes induces the expression of TNFα and IL-10 by human peripheral blood mononuclear cells in vitro in a TLR4-dependent manner

While the role of Toll-like receptors (TLRs) has been investigated in murine models of tegumentary leishmaniasis caused by Leishmania (Viannia) braziliensis, the interaction between TLRs and Leishmania sp. has not been investigated in human cells. The aim of this study was to evaluate the involvement of TLR4 in cytokine production of human peripheral blood mononuclear cells (PBMCs) induced by L. braziliensis, and whether the parasite alters the expression of TLR4 on monocytes/macrophages. Amastigote forms were obtained from mice lesions and PBMCs were isolated from healthy donors. PBMCs were cultured in absence or presence of IFNγ, TLR4 neutralizing antibodies, natural antagonist of TLR4 (Bartonella LPS), TLR4 agonist (E. coli LPS), and amastigote forms. The concentrations of tumor necrosis factor (TNFα) and interleukin 10 (IL-10) were assayed by ELISA and TLR4 expression by flow cytometry. Amastigotes forms of L. braziliensis induced TNFα and IL-10 production only in IFNγ-primed PBMCs. The TNFα and IL-10 production was inhibited by TLR4 neutralization, both with anti-TLR4 antibodies and Bartonella LPS. Interestingly, addition of E. coli LPS further increased TNFα but not IL-10 production induced by L. braziliensis amastigotes. Amastigotes of L. braziliensis strongly reduced membrane TLR4 expression on monocytes/macrophages, apparently by internalization after the infection. The present study reveals that TLR4 drives the production of TNFα and IL-10 induced by L. braziliensis amastigotes and that the parasites decrease TLR4 expression on monocyte surface.     

Interleukin-15 effectively potentiates the in vitro tumor-specific activity and proliferation of peripheral blood γδT cells isolated from glioblastoma patients

γδT cells play a regulatory role in both primary and metastatic tumor growth in humans. The mechanisms responsible for the activation and proliferation of circulating γδT cells should be fully understood prior to their adoptive transfer to cancer patients. We have examined in vitro functional effects of interleukin-15 (IL-15) on highly purified γδT cells isolated from glioblastoma patients. γδT cells constitutively express the heterotrimeric IL-2 receptor (IL-2R) αβγ, but the levels of IL-2Rβ or γ expression were not increased by incubation with saturating amounts of IL-15. IL-15 was shown to induce a maximal γδT cell proliferation, although at much higher concentrations (at least 2000 U/ml) than IL-2 (100 U/ml). Submaximal concentrations of IL-15 plus low concentrations of IL-2 produced an additive proliferative response. In contrast to the IL-2-induced response, this activity was completely or partially abrogated by anti-IL-2Rβ, or anti-IL-2Rγ antibodies, but not by anti-IL-2Rα antibodies. Incubation of γδT cells in the presence of IL-15 resulted not only in the appearance of NK and LAK activity, but also in specific autologous tumor cell killing activity, an additive effect being seen with IL-15 and IL-2. This IL-15-induced tumor-specific activity could be significantly blocked by anti-IL-2Rγ and anti-IL-2R-β mAb, but not by anti-IL-2Rα mAb. Thus, in contrast to IL-2, IL-15 activates tumor-specific γδT cells through the components of IL-2Rβ and IL-2Rγ, but not IL-2Rα. These enhanced in vitro tumor-specific and proliferative responses of γδT cells seen with IL-15 suggest a rational adjuvant imunotherapeutic use of γδT cells in cancer patients. Received: 23 January 1998 / Accepted: 20 May 1998     

Implication of different effector mechanisms by cord blood–derived and peripheral blood–derived cytokine-induced killer cells to kill precursor B acute lymphoblastic leukemia cell lines

Background aimsCytokine-induced killer (CIK) cells ex vivo–expanded from cord blood (CB) or peripheral blood (PB) have been shown to be cytotoxic against autologous and allogeneic tumor cells. We have previously shown that CD56⁺ CIK cells (CD3⁺CD56⁺ and CD3⁻CD56⁺) are capable of killing precursor B-cell acute lymphoblastic leukemia (B-ALL) cell lines. However, the lytic pathways used by CD56⁺ PB and CB-CIK cells to kill B-ALL cell lines have not been studied.MethodsCB and PB-CIK cells were differentiated. CD56⁺ CB- and PB-CIK cells were compared for expression of different phenotypic markers and for the lytic pathways used to kill B-ALL cell lines.ResultsWe found that cytotoxic granule proteins were expressed at higher levels in CD56⁺ PB-CIK than in CD56⁺ CB-CIK cells. However, CD56⁺ CB-CIK cells expressed more tumor necrosis factor–related apoptosis-inducing ligand (TRAIL) compared with CD56⁺ PB-CIK cells. We observed that CD56⁺ CB-CIK cells used both the NKG2D and TRAIL cytotoxic pathways and were more effective at killing REH cells than CD56⁺ PB-CIK cells that used only the NKG2D pathway. In contrast, CD56⁺ PB-CIK cells used both NKG2D and TRAIL pathways to kill NALM6 cells, whereas CD56⁺ CB-CIK cells used only the NKG2D pathway.ConclusionsOur results suggest that both the source of CIK and the type of B-ALL cell line have an impact on the intensity of the cytolytic activity and on the pathway used. These findings may have clinical implications with respect to optimizing therapeutic efficacy, which may be dependent on the source of the CIK cells and on the target tumor cells.     

Induction of apoptosis in T lymphoma cells by long-term treatment with thyroxine involves PKCζ nitration by nitric oxide synthase

Thyroid hormones are important regulators of cell physiology, inducing cell proliferation, differentiation or apoptosis, depending on the cell type. Thyroid hormones induce proliferation in short-term T lymphocyte cultures. In this study, we assessed the effect of long-term thyroxine (T4) treatment on the balance of proliferation and apoptosis and the intermediate participants in T lymphoma cells. Treatment with T4 affected this balance from the fifth day of culture, inhibiting proliferation in a time-dependent manner. This effect was associated with apoptosis induction, as characterized through nuclear morphological changes, DNA fragmentation, and Annexin V-FITC/Propidium Iodide co-staining. In addition, increased iNOS gene and protein levels, and enzyme activity were observed. The generation of reactive oxygen species, depolarization of the mitochondrial membrane, and a reduction in glutathione levels were also observed. The imbalance between oxidants and antioxidants species is typically associated with the nitration of proteins, including PKCζ, an isoenzyme essential for lymphoma cell division and survival. Consistently, evidence of PKCζ nitration via proteasome degradation was also observed in this study. Taken together, these results suggest that the long-term culture of T lymphoma cells with T4 induces apoptosis through the increased production of oxidative species resulting from both augmented iNOS activity and the loss of mitochondrial function. These species induce the nitration of proteins involved in cell viability, promoting proteasome degradation. Furthermore, we discuss the impact of these results on the modulation of T lymphoma growth and the thyroid status in vivo.     

Inhibition of the activating signals in NK92 cells by recombinant GST-sHLA-G1α chain

The soluble HLA-G1 (sHLA-G1) isoform was found to be secreted by trophoblast cells at the materno-fetal interface,which suggests that it may act as an immunomodulator during pregnancy. In this paper, we reported that GST-sHLA-G1α chain could bind to its receptor ILT-2 on NK92 cells and then the latter recruited Src homology 2 domaincontaining tyrosine phosphatase-1 (SHP-1), which consequently dephosphorylated some important protein tyrosine kinases and blocked the activation of downstream molecules such as MEK and ERK so that the cytotoxicity of natural killer (NK) cells was inhibited. These results indicated that GST-sHLA-G1α chain might be exploited in new immunotherapy strategies aiming at inducing immunotolerance during allograft, xenograft and autoimmune situations. In addition,we found that modification of O-linked β-N-acetylglucosamine (O-GlcNAc) was involved in NK cells‘ activating and inhibitory signals. This may provide a novel molecular target for inducing immunotolerance but needs further study.