MHC class II-independent CD25+ CD4+ CD8alpha beta+ alpha beta T cells attenuate CD4+ T cell-induced transfer colitis

CD4+ alpha beta T cell populations that develop in mice deficient in MHC class II (through 'knockout' of either the Aalpha, or the Abeta chain of the I-A(b) molecule) comprise a major 'single-positive' (SP) CD4+ CD8- subset (60-90%) and a minor 'double-positive' (DP) CD4+ CD8alpha beta+ subset (10-40%). Many DP T cells found in spleen, mesenteric lymph nodes (MLN) and colonic lamina propria (cLP) express CD25, CD103 and Foxp3. Adoptive transfer of SP but not DP T cells from Aalpha(-/-) or Abeta(-/-) B6 mice into congenic RAG(-/-) hosts induces colitis. Transfer of SP T cells repopulates the host with only SP T cells; transfer of DP T cells repopulates the host with DP and SP T cells. Anti-CD25 antibody treatment of mice transplanted with DP T cells induces severe, lethal colitis; anti-CD25 antibody treatment of mice transplanted with SP T cells further aggravates the course of severe colitis. Hence, regulatory CD25+ T cells within (or developing from) the DP T cell population of MHC class II-deficient mice control the colitogenic potential of CD25- CD4+ T cells.     

Cytotoxic reactivity of gut lamina propria CD4+ αβ T cells in SCID mice with colitis

Polyclonal, mucosa-seeking memory/effector CD4⁺ T cells containing a large fraction of blasts activated in situ accumulate in the gut lamina propria of severe-combined immunodeficient (SCID) mice developing colitis after CD4⁺ T cell transplantation. CD4⁺ T cells isolated from different repopulated lymphoid tissues of transplanted SCID mice proliferate in vitro in the presence of interleukin (IL)-2 + IL-7. CD3 ligation enhances this cytokine-supported proliferation in CD4⁺ T cells from the spleen and the mesenteric lymph node of transplanted SCID mice; CD3 ligation suppresses the cytokine-supported proliferation in CD4⁺ T cells from the gut lamina propria in a cell density- and dose-dependent manner. Almost all CD4⁺ T cells from repopulated lymphoid tissues of transplanted SCID mice express CD95 (Fas) on the cell surface, and a large fraction of CD4⁺ T cells from the gut lamina propria of transplanted SCID mice express the Fas ligand on the surface. Gut lamina propria CD4⁺ T cells show Fas-dependent cytotoxicity. A large fraction of gut lamina propria CD4⁺ T cells that infiltrate the inflamed colon in transplanted SCID mice are activated in situ and many CD4⁺ T cells are apoptotic. Hence, a large fraction of colitis-inducing CD4⁺ T cells undergo activation-induced cell death in situ and can damage other cells through Fas-dependent cytotoxicity.     

Proliferation and apoptosis of lamina propria CD4+ T cells from scid mice with inflammatory bowel disease

Scid mice transplanted with low numbers of syngeneic CD4⁺ T cells, develop a chronic and lethal inflammatory bowel disease (IBD) within 4 – 6 months. We have used in vivo 5-bromo-2-deoxy-uridine (BrdU) labeling to assess the proliferation of lamina propria-derived CD4⁺ T cells in diseased scid mice. The hourly rate of renewal of colonic lamina propria CD4⁺ T cells in diseased mice was 7 % compared with 1.5 % in normal BALB/c control mice. Transplantation of scid mice with in vitro activated CD4⁺ T cells accelerated the disease onset and development in a cell dose-dependent fashion when compared with non-activated CD4⁺ T cells. In pulse-chase experiments it was shown that BrdU-labeled cells disappeared rapidly from the lamina propria of diseased mice. DNA analysis revealed that this was due to the presence of nearly four times as many apoptotic CD4⁺ T cells in diseased than in control mice. Further analyses showed that the apoptotic lamina propria CD4⁺ T cells were derived from cells having entered the cell cycle within the previous 8 h. These data clearly demonstrate that vigorous CD4⁺ T cell proliferation and death are involved throughout the course of IBD.     

CD4+CD25+ regulatory T cells in the small intestinal lamina propria show an effector/memory phenotype

CD4⁺CD25⁺ regulatory T cells (Tregs) have been implicated inthe suppression of pathogenic responses to both self- and non-self-antigensin the intestine. However, their precise properties and functionsin the gut, as well as the molecular basis of their recruitmentto the gut, are poorly understood. Here, we found that mostof the CD4⁺CD25⁺ T cells in the small intestinal lamina propria(LP) express Foxp3 and exhibit an ‘effector/memory’phenotype, CD44^hiCD45RB^loCD62L^–, whereas only a minorityof the Foxp3⁺CD4⁺CD25⁺ T cells in the spleen and mesentericlymph nodes showed this phenotype. The Tregs in the small intestinalLP (LP-Tregs) expressed higher levels of CCR4 and CCR9 and asubstantially lower level of CCR7 than the Tregs in the spleen.In vitro, the LP-Tregs showed chemotaxis to CCL25/thymus-expressedchemokine. In addition, they showed efficient chemotaxis tothe CCR4 ligands, CCL17/thymus and activation-regulated chemokineand CCL22/macrophage-derived chemokine, which are abundantlyexpressed by dendritic cells (DCs) in the small intestinal LP.In vivo, 50% of the LP-Tregs were closely associated or in directcontact with LP-DCs. These findings demonstrate that LP-Tregsare phenotypically and functionally unique and raise the possibilitythat they are retained in the small intestinal LP through theaction of CCL17 and CCL22, which are locally produced by LP-DCs.     

CD4+ T regulatory cells from the colonic lamina propria of normal mice inhibit proliferation of enterobacteria-reactive,disease-inducing Th1-cells from scid mice with colitis

Adoptive transfer of CD4+ T cells into scid mice leads to a chronic colitis in the recipients. The transferred CD4+ T cells accumulate in the intestinal lamina propria (LP), express an activated Th1 phenotype and proliferate vigorously when exposed ex vivo to enteric bacterial antigens. As LP CD4+ T cells from normal BALB/c mice do not respond to enteric bacterial antigens, we have investigated whether colonic LP-derived CD4+ T cells from normal mice suppress the antibacterial response of CD4+ T cells from scid mice with colitis. LP-derived CD4+ T cells cocultured with bone marrow-derived dendritic cells effectively suppress the antibacterial proliferative response of CD4+ T cells from scid mice with colitis. The majority of these LP T-reg cells display a nonactivated phenotype and suppression is independent of antigen exposure, is partly mediated by soluble factor(s) different from IL-10 and TGF-beta, and is not prevented by the addition of high doses of IL-2 to the assay culture. Functionally and phenotypically the T-reg cells of the present study differ from previously described subsets of T-reg cells. The presence of T cells with a regulatory potential in the normal colonic mucosa suggests a role for these cells in the maintenance of local immune homeostasis of the gut.     

Expression of selectin-binding epitopes and cytokines by CD4+ T cells repopulating scid mice with colitis

Recruitment into the gut of CD4⁺ T cells and their activation in the colonic lamina propria (LP) are key events in the development of colitis in scid mice reconstituted with CD4⁺ T cells from immunocompetent, congenic donor mice. This study investigated the expression of cytokines and selectin-binding epitopes by CD4⁺ T cells repopulating different tissues of the adoptive scid host. Cells from the inflamed colonic LP of transplanted scid mice produced high amounts of IL-12, IFN-γ and TNF-α but only low amounts IL-4 and IL-10. Intracellular cytokine staining confirmed the presence of large numbers of IFN-γ- and TNF-α-producing effector CD4⁺ T cells in the colonic LP of scid mice with colitis but also in non-inflamed tissues [spleen (S), peritoneal cavity (PC) and mesenteric lymph nodes (mLN)] of the adoptive host. Cells from these tissues furthermore produced large amounts of IL-12. Ligands for endothelial selectins are involved in recruiting T cells into inflamed tissues. We have analyzed the expression of selectin-binding epitopes on CD4⁺ T cells repopulating different tissues of the adoptive scid host. We found that a large fraction of CD4⁺ T cells from inflamed colonic LP and from non-inflamed PC, mLN and S expressed high levels of P- and E-selectin-binding epitopes (P-L^hi) in transplanted scid mice, but not in congenic, immunocompetent control mice. Although P-L^hi CD4⁺ T cells were enriched in IFN-γ-producing subsets from most (but not all) tissues, we also found large numbers of in vivo generated P-L^lo CD4⁺ T cells producing pro-inflammatory cytokines. This was in contrast to in vitro generated Th1 CD4⁺ T blasts that were almost exclusively P-L^hi. In this mouse model, production of Th1-type pro-inflammatory cytokines and expression of surface epitopes binding endothelial selectins are hence strikingly up-regulated in CD4⁺ T cells residing in inflamed and non-inflamed tissues during the development of colitis.     

The proliferative response of CD4 T cells to steady-state CD8+ dendritic cells is restricted by post-activation death

CD8(+) splenic dendritic cells (DCs) from steady-state mice are less effective than the CD8(-) DC subset in their capacity to stimulate CD4 T cell proliferation in culture. However, we found that the two DC subtypes were equally potent at activating CD4 T cells, based on up-regulation of CD69 and CD25 expression. Also, we found no difference in the rate of T cell death prior to entry into the first division. We then tracked carboxyfluorescein diacetate succinimidyl ester-labeled T cells and employed a quantitative model to assess in detail the CD4 T cell expansion process in response to stimulation with CD8(+) or with CD8(-) DCs. The time required for most T cells to replicate their DNA prior to the first division was similar in both DC cultures. However, progression of the CD4 T cell population through subsequent divisions was reduced in CD8(+) DCs compared with CD8(-) DC culture. This was associated with an increased loss of viable T cells at each division. Post-activation, division-associated T cell death is therefore a major factor in the reduced response of CD4 T cells to CD8(+) DCs.     

Evidence that CD4+, but not CD8+ T cells are responsible for murine interleukin-2-deficient colitis

Mice deficient in interleukin-2 production (IL-2^null mice) develop colonic inflammation closely resembling ulcerative colitis in humans. Although this disease is marked by substantial infiltration of the colon by CD8⁺ and CD4⁺ T lymphocytes, no function has yet been assigned to these T cell subsets in the development of colitis in the IL-2^null mouse. For the present study, we investigated the involvement of T lymphocytes in the onset of colitis in IL-2^null mice, and examined the possible role played by cytotoxic T cells. Both lamina propria lymphocytes (LPL) and intraepithelial lymphocytes (IEL) of the colon of IL-2^null mice were potently cytotoxic ex vivo in short-term redirected cytotoxic lymphocyte (CTL) assays. In contrast, colonic T cells of wild-type animals showed little or no constitutive cytotoxic T cell activity. Colonic CTL were detectable prior to the appearance of disease in IL-2^null animals and CTL activity was confined to the TcRαβ, rather than to the TcRγδ IEL subset. IL-2^null animals crossed with major histocompatibility complex class I-deficient mice [IL-2^null × β₂ microglobulin (β₂m^null] mice also developed colitis, which appeared even earlier than in most IL-2^null mice. These findings suggest that neither CD8⁺ IEL nor LPL were causal in the onset of colitis in IL-2^null animals. In IL-2^null × β₂m^null mice, an ulcerative colitis-like disease was evident from histological studies and immunohistological staining which showed very large numbers of CD4⁺ lymphocytes within the intestinal mucosa. Significant ex vivo killing by CD4⁺ T cells was observed in IL-2^null × β₂m^null animals, although this required an extended incubation time compared to colonic CD8⁺ T cells. Peripheral as well as colonic CD4⁺ T cells in IL-2^null and IL-2^null × β₂m^null animals, were activated as judged by their cell surface phenotype (CD45RB^lo, L-selectin^lo and CD69⁺). In light of these findings, we propose that infiltrating CD4⁺, but not CD8⁺ T cells are central to the inflammation observed in the intestinal mucosa in IL-2^null colitis.     

Differential effect of CD8(+) and CD8(-) dendritic cells in the stimulation of secondary CD4(+) T cells

Dendritic cells (DC), in their role in initiation of the adaptive immune response, have been extensively studied for their capacity to interact and stimulate naive T cells. Subsets of mature murine DC isolated directly from the spleen have been shown to differ in their ability to induce proliferative responses in both primary CD4(+) and primary CD8(+) T cells; the myeloid-related CD8alpha(-) DC induce a more intense or prolonged proliferation of naive T cells than do the lymphoid-related DC bearing CD8alpha despite similar expression of MHC and co-stimulatory molecules. Here we examine the interaction of these DC subpopulations with T cells already in the activated or memory state which are known to have greater sensitivity to antigen stimulation and bear receptors with increased capacity for signal transduction. We show that influenza virus-specific CD4(+) T cell clones and splenic T cells from peptide-primed animals proliferated in response to antigen presented by separated splenic CD8(-) DC. In contrast, these T cells showed only weak, if any, proliferation in response to CD8(+) DC despite observable cluster formation in the cultures. The differential between the two DC types in inducing proliferation was even more pronounced than previously seen with primary T cells and did not reflect differential longevity of the DC in culture, altered response kinetics or deviation from IL-2 to IL-4 induction with CD8(+) DC, but was related to the levels of IL-2 induced. The deficiency in the CD8(+) DC was not overcome by using infectious virus rather than synthetic peptide as the antigen source. These results show that lymphoid-related CD8(+) splenic DC, despite their mature phenotype, fail to provide appropriate signals to secondary CD4(+) T cells to sustain their proliferation.     

T细胞诱导的结肠炎中多形螺旋线虫感染对CD4+T细胞增殖的影响

目的 研究肠道多形螺旋线虫对T细胞诱导的小鼠结肠炎CD4+T细胞增殖情况的影响.方法 用羟基荧光素二醋酸盐琥珀酰亚胺脂(CFSE)染色的卵清蛋白(OVA)特异性CD4+助性T细胞转入重度联合免疫缺陷(SCID)小鼠中,制作小鼠实验性肠炎模型.将实验模型小鼠分为多形螺旋线虫感染组和无感染组(每组n=5),观察多形螺旋线虫感染7d后小鼠结肠炎性反应的组织学变化；以流式细胞仪检测感染3、5、7d小鼠肠系膜淋巴结中CD4+T细胞CFSE的阴性率,判定肠系膜淋巴结中CD4+T细胞的增殖情况.结果 与无感染组比较,感染组小鼠第7天时有螺旋线虫感染结肠炎性反应明显加重,黏膜固有层细胞浸润增多,结肠上皮破损增加,病理评分明显升高(5.20±0.84比2.00±0.71,P＜0.05).感染3、5、7d后,感染组小鼠肠系膜淋巴结中CD4+T细胞增殖均比无感染组明显增强,CFSE的阴性率升高[3 d:(7.03±1.61)％比(2.32±0.62)％,5 d:(55.05±13.41)％比(29.10±2.23)％,7d:(76.97±1.89)％比(43.87±5.56)％,均P＜0.05].结论 多形螺旋线虫感染在CD4+T细胞诱导的小鼠实验性结肠炎的早期阶段促进了炎性反应的加重,可能与促进CD4+T细胞的增殖有关.     

树突状细胞扩增抗原特异性CD4+ CD25+调节性T细胞研究进展

CD4+CD25+调节性T细胞(Tr)是同时具有免疫低反应性和免疫抑制性功能两大特征的T细胞.研究证实,CD4+ CD25+ Tr在抑制器官特异性自身免疫性疾病及GVHD是抗原特异性的,因此,应用器官特异性而不是多克隆性的Tr将大大促进以Tr为基础的免疫治疗.而具有调节活性的CD4+ CD25+ Tr仅占人类外周血CIM+ T细胞的1%～2%,因此,研究体外大量扩增的方法 对于以Tr基础的治疗至关重要.研究表明,树突状细胞(DC)作为机体强有力的专职抗原递呈细胞可以扩增具有抗原特异性的CD4+ CD25+ Tr且能增加后者的抑制活性,这为治疗自身免疫性疾病及GVHD提供了新的治疗前景.     

Polyclonal expansion of adoptively transferred CD4+ αβ T cells in the colonic lamina propria of scid mice with colitis

The adoptive transfer of low numbers of peripheral, non-fractionated CD4⁺ αβ T cells into histocompatible, severely immunodeficient (scid) hosts induces a colitis. This disease developed in C.B-17 scid/scid hosts after the injection of 10⁵CD4⁺ T cells purified from different peripheral lymphoid organs of immunocompetent C.B-17 +/+ or BALB/c^dm2 donor mice. Irrespective of their tissue origin, transferred CD4⁺ T cells selectively repopulated the scid host with gut-seeking CD4⁺ T cells. A chronic inflammatory bowel disease (IBD) developed as polyclonal populations of mucosa-seeking memory/effector CD4⁺ T cells accumulated in the gut lamina propria and epithelial layer of the adoptive host. The manifestation of colitis in the scid host correlated with the in situ polyclonal activation and expansion of adoptively transferred CD4⁺ T cells in the colonic lamina propria. Attempts were unsuccessful to select in vivo an oligoclonal CD4⁺ T cell population with an enhanced IBD-inducing potential by repeatedly reinjecting 10⁵ donor-type CD4⁺ T cells from the colonic lamina propria of transplanted scid mice with an early and severe IBD into new scid hosts. The data indicate that the preferential repopulation of gut-associated lymphoid tissues with immunocompetent CD4⁺ T cells, and their polyclonal activation and in situ expansion in the lamina propria of the histocompatible, immunodeficient host are critical events in the pathogenesis of an IBD in this model.     

Instruction of naive CD4+ T cells by polarized CD4+ T cells within dendritic cell clusters

Cooperation between CD4(+) T cells can enhance the response and modulate the cytokine profile, and defining these parameters has become a major issue for multivalent-vaccine strategies.We explored cooperation using adoptive transfer of two populations of TCR transgenic T cells of different specificity. One was transferred without prior activation, whereas the second was activated for five days by antigen stimulation under polarizing culture conditions. Both populations were transferred into a single adoptive host and then primed by particle-mediated DNA delivery. Polarized Th1 cells (inducers) raised the frequency of IFN-gamma(+) cells within a naive (target) population, whereas Th2 inducers raised the frequency of IL-4(+) and reduced that of IL-2(+) cells. These effects were obtained when the genes for both antigens were on the same particle, favoring presentation by the same dendritic cell, but not when on different particles delivered to different dendritic cells. Autonomy of DC clusters allows linked sets of antigens (e.g. from a single pathogen) to maintain cytokine bias, but allows other independent responses, each with their own set of autonomous clusters.     

Continuous generation of colitogenic CD4(+) T cells in persistent colitis

Inflammatory bowel diseases take chronic courses due to the expansion of colitogenic CD4⁺ cells. However, it is unclear whether the persistent disease is driven by continuous reactivation of colitogenic memory CD4⁺ cells to generate effector CD4⁺ cells or by continuous generation of effector CD4⁺ cells from naïve cells. To clarify this issue, we performed a series of sequential adoptive transfers of Ly5.2⁺ and Ly5.1⁺ CD4⁺CD45RB^high cells into RAG‐2^–/– mice at different time points. We show here that the secondarily transferred CD4⁺CD45RB^high cells can be converted to CD4⁺CD44^highCD62L^–IL‐7Rα^high effector‐memory T cells even in the presence of pre‐existing effector‐memory CD4⁺ cells. Although the total cell numbers of CD4⁺ cells in established colitic mice were consistently equivalent irrespective of the number of primarily transferred cells, the ratio of primarily and secondarily transferred cells was dependent on the ratio of the transferred cell numbers, but not on the order of the transfer. Of note, we found that primarily transferred CD4⁺ cells produced significantly lower amounts of IFN‐γ and IL‐17 than CD4⁺ cells arising from secondary transfer. In conclusion, the continuous generation of colitogenic CD4⁺ cells that compensate for exhausted CD4⁺ cells may be one of the mechanisms involved in the persistence of colitis.     

FTY720 suppresses the development of colitis in lymphoid‐null mice by modulating the trafficking of colitogenic CD4+ T cells in bone marrow

2‐Amino‐2‐(2‐[4‐octylphenyl]ethyl)‐1,3‐propanediol hydrochloride (FTY720) suppresses T‐cell egress from LN, thereby preventing pathogenic T cells from migrating toward disease sites. However, little is known about whether FTY720 could control the trafficking of T cells without the presence of lymphoid tissues. Here we demonstrate that FTY720 treatment suppresses the recirculation of CD4⁺ T cells in splenectomized (SPX) lymphotoxin‐α^?/? (LT‐α^?/?) mice that lack LN and spleen, as shown by peripheral blood (PB) lymphopenia in FTY720‐treated SPX LT‐α^?/? mice. In a short‐term transfer experiment, the cell number of transferred Ly5.1⁺CD4⁺ T cells recovered from host FTY720‐treated SPX LT‐α^?/? mice (Ly5.2⁺) was markedly decreased in PB, but conversely increased in BM. Notably, FTY720 treatment prevented the development of colitis that is otherwise induced in untreated SPX LT‐α^?/?×RAG‐2^?/? mice upon transfer of colitic lamina propria CD4⁺ T cells. In such mice, the number of CD4⁺ T cells in PB or lamina propria of FTY720‐treated SPX LT‐α^?/?×RAG‐2^?/? recipients was significantly reduced, but that in the BM was significantly increased as compared with untreated control mice. Altogether, the present results indicate that FTY720 treatment may offer an additional role to direct trafficking of CD4⁺ T cells in BM, resulting in the prevention of colitis.     

Expansion of CD4+ CD25+ Foxp3+ T cells by bone marrow-derived dendritic cells

Dendritic cells (DCs) are the most important antigen-presenting cells of the immune system and have a crucial role in T-lymphocyte activation and adaptive immunity initiation. However, DCs have also been implicated in maintaining immunological tolerance. In this study, we evaluated changes in the CD4(+) CD25(+) Foxp3(+) T-cell population after co-culture of lymph node cells from BALB/c mice with syngeneic bone marrow-derived DCs. Our results showed an increase in CD4(+) CD25(+) Foxp3(+) T cells after co-culture which occurred regardless of the activation state of DCs and the presence of allogeneic apoptotic cells; however, it was greater when DCs were immature and were pulsed with the alloantigen. Interestingly, syngeneic apoptotic thymocytes were not as efficient as allogeneic apoptotic cells in expanding the CD4(+) CD25(+) Foxp3(+) T-cell population. In all experimental settings, DCs produced high amounts of transforming growth factor (TGF)-beta. The presence of allogeneic apoptotic cells induced interleukin (IL)-2 production in immature and mature DC cultures. This cytokine was also detected in the supernatants under all experimental conditions and enhanced when immature DCs were pulsed with the alloantigen. CD4(+) CD25(+) Foxp3(+) T-cell expansion during co-culture of lymph node cells with DCs strongly suggested that the presence of alloantigen enhanced the number of regulatory T cells (Tregs) in vitro. Our data also suggest a role for both TGF-beta and IL-2 in the augmentation of the CD4(+) CD25(+) Foxp3(+) population.     

Colon lamina propria dendritic cells induce a proinflammatory cytokine response in lamina propria T cells in the SCID mouse model of colitis

Intestinal immune responses are normally regulated to maintain a state of immune balance. Dendritic cells (DC) are antigen-presenting cells, which induce immune responses against microbes and other stimuli and are key players in the regulation of tolerance in the gut. These cells influence the differentiation of cytokine responses in T cells, and in the gut, in particular, such interactions may be critical to the course of inflammatory bowel disease (IBD). Using the CD45RBhi CD4+ T cell-reconstituted severe combined immunodeficient mouse model of colitis, we investigated the ability of isolated colon DC to stimulate immune responses in syngeneic and allogeneic spleen CD4+ T cells, as well as in colon T cells isolated from the same tissue as DC in IBD mice. We found that the frequency of DC in IBD mice colons and spleens was elevated in comparison with control mice, but colon and spleen DC exhibited different phenotypic and functional properties. Colon DC stimulated significantly higher levels of interferon-gamma and interleukin-6 when cocultured with autologous colon T cells than in cocultures with syngeneic or allogeneic spleen T cells. These data suggest that in the IBD colon, DC-T cell interactions may create conditions with an abundance of proinflammatory cytokines, which favor the inflammatory state.     

The puzzle of intestinal lamina propria dendritic cells and macrophages

A specialized network of immune cells is positioned directly in the mucosa of the intestinal tract. In this Viewpoint, we discuss the nature and function of DC and macrophages occupying the intestinal lamina propria of mice. DC and macrophages share phenotypic traits and functional plasticity, properties that preclude simple classification of the two cell types. Nevertheless, the information available appears to have reached “critical mass” to allow for a clear demarcation between intestinal macrophages and DC.     

Cytotoxic T lymphocyte antigen-4-dependent down-modulation of costimulatory molecules on dendritic cells in CD4+ CD25+ regulatory T-cell-mediated suppression

We have previously demonstrated that CD4+ CD25+ natural regulatory T cells (Treg cells) induce down-modulation of CD80 and CD86 (B7) molecules on dendritic cells (DCs) in vitro. In this report we show that the extent of down-modulation is functionally significant because Treg-cell conditioned DCs induced poor T-cell proliferation responses. Further, we report that down-modulation was induced rapidly and was inhibited by blocking cytotoxic T lymphocyte antigen-4 (CTLA-4), which is constitutively expressed by the Treg cells. Even though Treg cells have previously been reported to kill antigen-presenting cells, the down-modulation was not due to selective killing of DCs expressing high level of the costimulatory molecules. We propose that Treg cells down-modulate B7-molecules on DCs in a CTLA-4-dependent way, thereby enhancing suppression of T-cell activity.     

Novel molecular mechanisms of dendritic cell-induced T cell activation

In this study we have re-examined the molecular mechanisms involved in activation of T cells by dendritic cells (DC). Human peripheral blood DC (PBDC) were derived by 2 h adhesion followed by 7 day culture in a combination of granulocyte macrophage colony stimulating factor and IL-4, and depletion of residual T and B cells. These PBDC were used to induce autologous T cell proliferation in a CD3-dependent response, and antibodies against CD11a/18 and CD86 were used as control inhibitors of accessory function. Antibodies against five of the cell surface molecules that we have recently identified on the surface of DC, CD13, CD87, CD98, CD147 and CD148, and an antibody which recognizes a molecule that has not as yet been identified, all inhibited the CD3-induced T cell proliferation. These findings were observed not only when antibodies were present throughout the culture, but also when they were prepulsed on to the surface of the DC, suggesting the inhibition was mediated via the antigen-presenting cells rather than the T cell. The same set of antibodies also inhibited an allospecific mixed lymphocyte reaction, confirming that the inhibitory effect was not dependent on the use of a CD3 antibody as the stimulating agent. All the antibodies of known specificity inhibited both CD4 and CD8 T cells equally. Unlike CD87, CD98 and CD147 antibodies, which inhibited activation of both CD45RA (naive) T cells and CD45RO (memory) T cells, CD13 and CD148 appeared to be involved in activation of naive cells only. The molecules identified in this study have not previously been demonstrated to play a role as accessory molecules on DC, the cells that are pivotal for immune induction. Therefore they may provide new potential targets for modulation of the immune response at the APC level.