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1.
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Clonal selection of T cells mediated through the T cell antigen receptor (TCR) mostly occurs at the CD4+CD8+ double positive thymocyte stage. Immature CD4+CD8+ thymocytes expressing self-reactive TCR are induced to die upon clonotypic engagement of TCR by self antigens. CD3 engagement by antibody of the surface TCR-CD3 complex is known to induce apoptosis of CD4+CD8+ thymocytes, a process that is generally thought to represent antigen-induced negative selection in the thymus. The present study shows that the CD3-induced apoptosis of CD4+CD8+ thymocytes can occur even in TCRα? mutant mice which do not express the TCRαβ/CD3 antigen receptor. Anti-CD3 antibody induces death of CD4+CD8+ thymocytes in TCRα? mice either in cell cultures or upon administration in vivo. Interestingly, most surface CD3 chains expressed on CD4+CD8+ thymocytes from TCRα? mice are not associated with clonotypic TCR chains, including TCRβ. Thus, apoptosis of CD4+CD8+ thymocytes appear to be induced through the CD3 complex even in the absence of clonotypic antigen receptor chains. These results shed light on previously unknown functions of the clonotype-independent CD3 complex expressed on CD4+CD8+ thymocytes, and suggest its function as an apoptotic receptor inducing elimination of developing thymocytes.  相似文献   

3.
An inflammatory bowel disease (IBD) comparable to human ulcerative colitis is induced upon transfer of T cell-depleted wild-type (F1) bone marrow into syngeneic T cell-deficient (tgε26) mice (F1 → tgε26). Previously we have shown that activated CD4+ T cells predominate in transplanted tgε26 mice, and adoptive transfer experiments verified the potential of these cells to cause disease in immunodeficient recipient mice. Using flow cytometry for the detection of intracellular cytokine expression, we demonstrate in the present study that large numbers of CD4+ and CD8+ TCRαβ+ T cells from the intraepithelial region and lamina propria of the colon of diseased, but not from disease-free mice, produced interferon-γ (IFN-γ) and tumor necrosis factor-α (TNF-α). Large numbers of T cells from peripheral lymphoid tissues of these animals also expressed IFN-α and TNF-α, but few expressed interleukin-4, demonstrating g strong bias towards Th1-type T cell responses in these animals. TCRγδ+ T cells, typically minor constituents of the inflammatory infiltrate of the colon in F1 → tgε26 mice, also expressed IFN-γ at a high frequency upon CD3 stimulation. In light of these findings we examined the potential involvement of TCRγδ+ T cells by testing their ability to induce colitis in tgε26 mice. We report here that tgε26 mice transplanted with T cell-depleted bone marrow from TCRαnull and TCRβnull animals developed IBD. Furthermore, disease in these mice correlated with the development of peripheral and colonic TCRαδ+ T cells capable of IFN-γ production. These results suggest that IFN-γ may be a common mediator of IBD utilized by pathogenic T cells of distinct phenotype.  相似文献   

4.
Targeted disruption of the CD8 gene results in a profound block in cytotoxic T cell (CTL) development. Since CTL are major histocompatibility complex (MHC) class I restricted, we addressed the question of whether CD8–/– mice can reject MHC class I-disparate allografts. Studies have previously shown that skin allografts are rejected exclusively by T cells. We therefore used the skin allograft model to answer our question and grafted CD8–/– mice with skins from allogeneic mice deficient in MHC class II or in MHC class I (MHC-I or MHC-II-disparate, respectively). CD8–/– mice rejected MHC-I-disparate skin rapidly even if they were depleted of CD4+ cells in vivo (and were thus deficient in CD4+ and CD8+ T cells). By contrast, CD8+/+ controls depleted of CD4+ and CD8+ T cells in vivo accepted the MHC-I-disparate skin. Following MHC-I, but not MHC-II stimulation, allograft-specific cytotoxic activity was detected in CD8–/– mice even after CD4 depletion. A population expanded in both the lymph nodes and the thymus of grafted CD8–/– animals which displayed a CD4?8?3intermediateTCRα/βintermediate phenotype. Indeed its T cell receptor (TCR) density was lower than that of CD4+ cells in CD8–/– mice or of CD8+ cells in CD8+/+ mice. Our data suggest that this CD4?8?T cell population is responsible for the CTL function we have observed. Therefore, MHC class I-restricted CTL can be generated in CD8–/– mice following priming with MHC class I antigens in vivo. The data also suggest that CD8 is needed to up-regulate TCR density during thymic maturation. Thus, although CD8 plays a major role in the generation of CTL, it is not absolutely required.  相似文献   

5.
6.
In conventional mice, the T cell receptor (TCR)αβ+ CD8αα+ and CD8αβ+ subsets of the intestinal intraepithelial lymphocytes (IEL) constitute two subpopulations. Each comprise a few hundred clones expressing apparently random receptor repertoires which are different in individual genetically identical mice (Regnault, A., Cumano, A., Vassalli, P., Guy-Grand, D. and Kourilsky, P., J. Exp. Med. 1994. 180: 1345). We analyzed the repertoire diversity of sorted CD8αα and CD8αβ+ IEL populations from the small intestine of individual germ-free mice that contain ten times less TCRαβ+ T cells than conventional mice. The TCRβ repertoire of the CD8αα and the CD8αβ IEL populations of germ-free adult mice shows the same degree of oligoclonality as that of conventional mice. These results show that the intestinal microflora is not responsible for the repertoire oligoclonality of TCRαβ+ IEL. The presence of the microflora leads to an expansion of clones which arise independently of bacteria. To evaluate the degree of expansion of IEL clones in conventional mice, we went on to measure their clone sizes in vivo by quantitative PCR in the total and in adjacent sections of the small intestine of adult animals. We found that both the CD8αα and the CD8αβ TCRαβ IEL clones have a heterogeneous size pattern, with clones containing from 3 × 103 cells up to 1.2 × 106 cells, the clones being qualitatively and quantitatively different in individual mice. Cells from a given IEL clone are not evenly distributed throughout the length of the small intestine. The observation that the TCRαβ IEL populations comprise a few hundred clones of very heterogeneous size and distribution suggests that they arise from a limited number of precursors, which may be slowly but continuously renewed, and undergo extensive clonal expansion in the epithelium.  相似文献   

7.
γδ T cells play a crucial role in controlling malaria parasites. Dendritic cell (DC) activation via CD40 ligand (CD40L)‐CD40 signaling by γδ T cells induces protective immunity against the blood‐stage Plasmodium berghei XAT (PbXAT) parasites in mice. However, it is unknown which γδ T‐cell subset has an effector role and is required to control the Plasmodium infection. Here, using antibodies to deplete TCR Vγ1+ cells, we saw that Vγ1+ γδ T cells were important for the control of PbXAT infection. Splenic Vγ1+ γδ T cells preferentially expand and express CD40L, and both Vγ1+ and Vγ4+ γδ T cells produce IFN‐γ during infection. Although expression of CD40L on Vγ1+ γδ T cells is maintained during infection, the IFN‐γ positivity of Vγ1+ γδ T cells is reduced in late‐phase infection due to γδ T‐cell dysfunction. In Plasmodium‐infected IFN‐γ signaling‐deficient mice, DC activation is reduced, resulting in the suppression of γδ T‐cell dysfunction and the dampening of γδ T‐cell expansion in the late phase of infection. Our data suggest that Vγ1+ γδ T cells represent a major subset responding to PbXAT infection and that the Vγ1+ γδ T‐cell response is dependent on IFN‐γ‐activated DCs.  相似文献   

8.
Using a primary limiting dilution approach to generate T cell lines, we compared myelin basic protein (MBP)-specific T cell clones from naive unprimed Lewis rat thymuses with the corresponding T cell repertoire of primed rats. We found that in the naive thymus repertoire MBP-specific, encephalitogenic T cell clones preferentially use T cell receptor Vβ8.2 genes, along with CDR3 sequences typical for the primed Lewis anti-MBP response. In contrast to T cells from primed immune organs, which all display the CD4+ CD8? phenotype, the majority of naive thymus-derived T cell clones expressed reduced levels of the CD4 co-receptor. Some clones were completely CD4?CD8?, while others included CD4? CD8? subpopulations along with CD4+CD8? T cells. In the one mixed population examined in detail, the CD4?CD8? and CD4+CD8? T cell subpopulations used a T cell receptor with identical β chain sequence. The data suggest that in the Lewis rat the biased T cell receptor gene usage by encephalitogenic T cells is a property of the natural thymic T cell repertoire, possibly as a consequence of positive selection. The unusually low expression of CD4 in the major histocompatibility complex class II-restricted autoreactive T cells could be related to their escape from negative selection within the thymus.  相似文献   

9.
A particular T cell population expressing NK cell markers, CD56 and CD57, exists in humans. Many CD56+ T and CD57+ T cells (i.e. NK T cells) exist in the liver and increase in number in the blood with ageing. They may be a human counterpart of extrathymic T cells, similar to NK1.1+ CD3int cells seen in mice. We investigate here the existence of such NK T cells in human cord blood and the in vitro expansion of these cells by the stimulation of human recombinant IL-2 (rIL-2). There were very small populations (< 1.0%) of CD56+ T cells, CD57+ T cells, and γδ T cells in cord blood. However, all of these populations increased in number after birth and with ageing. When lymphocytes in cord blood were cultured with rIL-2 (100 U/ml) for 14 days, CD56+ T cells expanded up to 25% of T cells. CD57+ T cells were never expanded by these in vitro cultures. The expansion of γδ T cells (mainly Vγ9? non-adult type) also occurred in the in vitro culture. A considerable proportion of CD56+ T cells was found to use Vα24 (i.e. equivalent to invariant Vα14 chain used by murine NK T cells) for TCR αβ. These results suggest that neonatal blood contains only a few NK T cells but CD56+ NK T cells and γδ T cells are able to expand in vitro.  相似文献   

10.
After the development of highly active anti‐retroviral therapy, it became clear that the majority of emergent HIV‐1 is macrophage‐tropic and infects CD4+, CCR5‐expressing cells (R5‐tropic). There are three distinct cell populations, R5‐tropic, HIV‐1‐susceptible CD4+ cells: (i) natural killer T (NKT) cells, (ii) dendritic cells and macrophages, and (iii) tissue‐associated T cells residing primarily at mucosal surfaces. We have confirmed that CD4+ NKT cells derived from peripheral blood mononuclear cells (PBMCs) predominantly express CCR5 rather than CXCR4, whereas the reverse is true for CD4+ T cells derived from circulating PBMCs, and that R5‐tropic HIV‐1 expands efficiently in the CD4+ NKT cells. Moreover, when PBMCs depleted of CD8α+ cells were stimulated in the presence of α‐galactosylceramide (α‐GalCer) and R5‐tropic HIV‐1 [NL(AD8)], the production of HIV‐1 virions was not suppressed, whereas, similar to the untreated PBMCs, depletion of CD8β+ cells from PBMCs significantly inhibited virion production. These findings suggest that CD8αα+ but not CD8αβ+ cells may have the ability to inhibit R5‐tropic HIV‐1 replication in CD4+ NKT cells. Here, we show that co‐culturing R5‐tropic HIV‐1‐infected CD4+ NKT cells with CD8αα+ γδ T cells, in particular Vγ1Vδ1 cells, but not with CD8αα+ NKT cells or CD8αα+ dendritic cells, inhibits HIV‐1 replication mainly by secreting chemokines, such as macrophage inflammatory proteins 1α and 1β and RANTES. Collectively, these results indicate the importance of CD8αα+ γδ T cells in the control of R5‐tropic HIV‐1 replication and persistence in CD4+ NKT cells.  相似文献   

11.
We demonstrate that pretreatment of primary CD4+, but not CD8+ T cells with anti-CD45 inhibits activation signals induced through the T cell receptor for antigen (TCRαβ). Specifically, anti-TCRαβ-mediated tyrosine phosphorylation of phospholipase C-γ1 is inhibited, and this in turn correlates with the inhibition of subsequent Ca2+ mobilization and DNA synthesis. In marked contrast, none of these activation parameters are affected by anti-CD45 in CD8+ T cells. Perturbation of TCRαβ signalling in CD4+ cells is observed in conditions which do not detectably affect the level of CD45 expression, or its membrane distribution. Further, changes in the intrinsic phosphatase activity of CD45 are not detectable. While anti-CD45 ablates TCRαβ signalling, anti-CD3?-mediated activation is unaffected. This suggests that elements of the antigen receptor complex can be functionally uncoupled, and indicates that the requirements for CD45 in signalling through these two elements are different. The results demonstrate that the involvement of CD45 in coupling TCRαβ to second messenger-generating pathways is under distinct physical and/or functional constraints in primary CD4+ and CD8+ T cells.  相似文献   

12.
Extrathymic T cell differentiation pathways have been reported, although the thymus is the main site of T cell differentiation. The thymus is also known to produce several cytokines that induce proliferation of thymocytes. In the present study, we investigated the influence of thymus-derived cytokines on extrathymic T cell differentiation by intraperitoneal implantation with a diffusion chamber which encloses fetal thymus (we named it fetal thymus-enclosed diffusion chamber, FTEDC) in athymic BALB/c nu/nu mice. Increase in number of T cells bearing T cell receptor (TcR) α/β was detected in lymph nodes and spleens of FTEDC-implanted nude mice 1 week after implantation, whereas no such increase was detected in control nude mice implanted with a diffusion chamber without thymus. The FTEDC-induced increase of T cells was suppressed by intraperitoneal injection of anti-interleukin-7 monoclonal antibody (mAb). The TcR α/β T cells in FTEDC-inplanted BALB/c nu/nu mice preferentially expressed Vβ11, although Vβ11-positive T cells are deleted in the thymus of euthymic BALB/c mice by clonal elimination of self-superantigen Dvb 11-specific T cells. TcR α/β T cells in FTEDC-implanted nude mice were of CD4?CD8? phenotype and showed no proliferative response against anti-TcR monoclonal antibody stimulation. These results suggest that the thymus can induce extrathymic T cell differentiation through the influence of thymus-derived cytokine(s) including interleukin-7, and that such extrathymically differentiated T cells have acquired only a little or no ability for proliferation when they recognize antigen by their TcR.  相似文献   

13.
We investigated the surface phenotype of CD3+CD4+ T cell receptor (TCR) αβ+ T cells repopulating the intestinal lymphoid tissues of C.B-17 scidlscid (severe-combined immunodeficient; scid) (H-2d, Ld+) mice. CD4+ CD8? T cells were cell sorter-purified from various secondary and tertiary lymphoid organs of congenic C.B-17 +/+ (H-2d, Ld+) or semi-syngeneic dm2 (H-2d, Ld?) immunocompetent donor mice. After transfer of 105 cells into young scid mice, a mucosa-homing, memory CD44hi CD45RBlo CD4+ T cell population was selectively engrafted. Large numbers of single-positive (SP) CD3+ CD2+ CD28+ CD4+ CD8? T cells that expressed the α4 integrin chain CD49d were found in the spleen, the mesenteric lymph nodes, the peritoneal cavity and the gut lamina propria of transplanted scid mice. Unexpectedly, large populations of donor-type doublepositive (DP) CD4+ CD8α+ CD8β? T cells with high expression of the CD3/TCR complex appeared in the epithelial layer of the small intestine of transplanted scid mice. In contrast to SP CD4+ T cells, the intraepithelial DP T cells showed low expression of the CD2 and the CD28 co-stimulator molecules, and of the α4 integrin chain CD49d, but expressed high levels of the αIEL integrin chain CD103. The TCR-Vβ repertoire of DP but not SP intraepithelial CD4+ T cells was biased towards usage of the Vβ6 and Vβ8 viable domains. Highly purified populations of SP and DP CD4+ T cell populations from the small intestine epithelial layer of transplanted scid mice had different abilities to repopulate secondary scid recipient mice: SP CD4+ T cells repopulated various lymphoid tissues of the immunodeficient host, while intraepithelial DP CD4+ T cells did not. Hence, a subset of CD3+ CD4+ TCRαβ+ T cells apparently undergoes striking phenotypic changes when it enters the microenvironment of the small intestine epithelial layer.  相似文献   

14.
Tuberculous pleurisy is a naturally occurring site of Mycobacterium tuberculosis (Mtb) infection. Herein, we describe the expression of activation, natural killer (NK) and cell migration markers, as well as effector functions from γδT cells in peripheral blood (PB) and pleural effusion (PE) from tuberculosis patients (TB). We observed a decreased percentage of circulating γδT from TB patients and differential expression of NK as well as of chemokine receptors on PB and PE. Two subsets of γδT cells were differentiated by the CD3/γδT cell receptor (γδTCR) complex. The γδTCRlow subset had a higher CD3 to TCR ratio and was enriched in Vδ2+ cells, whereas most Vδ1+ cells belonged to the γδTCRhigh subset. In PB from TB, most γδTCRhigh were CD45RA+CCR7 and γδTCRlow were CD45RA+/?CCR7+CXCR3+. In the pleural space the proportion of CD45RACCR7+CXCR3+ cells was higher. Neither spontaneous nor Mtb‐induced interferon (IFN)‐γ production was observed in PB‐γδT cells from TB; however, PE‐γδT cells showed a strong response. Both PB‐ and PE‐γδ T cells expressed surface CD107a upon stimulation with Mtb. Notably, PE‐γδTCRlow cells were the most potent effector cells. Thus, γδT cells from PB would acquire a further activated phenotype within the site of Mtb infection and exert full effector functions. As γδT cells produce IFN‐γ within the pleural space, they would be expected to play a beneficial role in tuberculous pleurisy by helping to maintain a T helper type 1 profile.  相似文献   

15.
Human γδ T lymphocytes expressing the variable T cell receptor elements Vγδ paired with Vδ2 are activated by antigen derived from Mycobacterium tuberculosis (M. tb.) and presented by antigen-presenting cells (APC). The subsequent proliferation is strictly dependent on the presence of CD4+TCRαβ+ T helper type 1 (Th1) cells producing interleukin-2 (IL-2). In this study, we report that the reactivity of Vγ9 cells to M. tb. stimulation in vitro was drastically decreased or absent in the majority of the analyzed HIV-1-infected individuals (CDC stages III and IV). We show that the failure of Vγ9 cells frim HIV? individuals to proliferate following M. tb. stimulation was not due to an intrinsic qualitative or quantitative defect of γδ T cells but rather to a deficiency of M. tb.-reactive CD4 Th1 cells. Thus, Vγ9 responsiveness could be restored if cultures of M. tb.-stimulated T cells from HIV+ donors were reconstituted with one of the following: (i) exogenous IL-2; (ii) purified CD4T cells from allogeneic donors; or (iii) T cell-depleted APC from allogeneic donors. In the majority of HIV+ patients, the defective Th1 activity of M. tb.-stimulated CD4 T cells could be increased neither by cytokines known to favor Th1 development (IL-12, interferon-γ) nor by neutralization of the Th1-suppressing Th2 cytokine IL-10. We suggest that measurement of Vγ9 cell expansion within M. tb.-stimulated peripheral blood mononuclear cells provides a sensitive assay for the functional capacity of antigen (M. tb.)-specific CD4 Th1 cells in HIV-infected individuals.  相似文献   

16.
Vγ9/Vδ2+ T cells specifically recognize Mycobacterium tuberculosis in vitro and are precociously recruited in early mycobacterial lesions. Even if γ δ T cells are only fortuitously detected in granulomas or bronchoalveolar lavages of patients with active pulmonary tuberculosis, a role in shaping the mature α β T cell response against M. tuberculosis is substantiated. Here we provide a molecular explanation for this paradox: the engagement of the γ δ TCR by mycobacterial antigens induced the expression of CD95 ligand (CD95L) by chronically activated CD95+ /CD95L γ δ T lymphocytes. The receptor was functional, as CD95/CD95L interaction triggered the bystander death of CD95+ cells by apoptosis. Cell death was abolished by CD95-blocking antibodies. The transient accumulation at the site of infection of CD95L+ γ δ lymphocytes, capable of interacting with CD95+ leukocytes attracted by the response towards the pathogen, may determine the characteristics of the ensuing granulomatous disease.  相似文献   

17.
We examined T cell development and T cell repertoire in transgenic mice expressing a single T cell receptor (TCR) α chain derived from the H-2Db -lymphocytic choriomeningitis virus (LCMV)-specific cytolytic T lymphocyte (CTL) clone P14. To generate these α P14 mice, mice transgenic for the P14 TCR α chain were backcrossed to TCR α-deficient mice. Thymi from α P14 mice exhibited a marked decrease of mature CD4+8? and CD8+4? single-positive thymocytes comparable to thymi from TCR α-deficient mice. Correspondingly, the number of peripheral T cells was reduced in the CD4 (tenfold) and in the CD8 (twofold) subsets when compared to normal mice. T cells from α P14 mice generated a primary anti-LCMV CTL response when stimulated in vitro with LCMV in contrast to normal mice which require priming in vivo; elimination of LCMV in vivo was, however, not improved. Flow cytometric analysis of T cells with Vβ-specific antibodies showed a diverse endogenous TCR Vβ repertoire. Functional analysis of the T cell repertoire, however, revealed a strongly reduced (30-fold) allogeneic and the absence of a vesicular stomatitis virus-specific CTL response and an impaired ability to provide T cell help for antibody isotype switching. Thus, T cell selection in the thymus was impaired and the T cell repertoire was limited in mice expressing only one type of TCR α chain.  相似文献   

18.
We have previously reported 2 cases of healthy men showing in vivo monoclonal expansion of mature CD4? CD8? αβ T cells. In the present study, an additional 3 adults were found to exhibit such an expansion, among a total 464 adult donors studied. These 5 individuals were otherwise physiologically normal, with no history of severe illness and autoimmune disease at the time of examination. To investigate the mechanisms of the clonal expansion, further characterization of the clonal cells was attempted. No apparent preference for usage of the Tcell receptor β chain variable region was observed in the clonal T cells. These clonal T cells showed lectin-dependent or redirected antibody-dependent cell-mediated cytotoxicities, whereas they could not lyse autologous lymphoblastoid cell lines. Failure of Fas antigen expression was not observed for any of these clones. These results suggest that clonal expansion of CD4? CD8? αβ T cells frequently occurs in the periphery without any T cell abnormalities.  相似文献   

19.
We have compared the expression of CD45RA on αβ and γδ T cells emigrating from the fetal and postnatal thymus. The fetal and postnatal thymus export both CD45RA+ and CD45RA- T cells. The number of γδ+CD45RA+ T cells was remarkably constant regardless of stage of ontogeny or T cell maturity. Around 5--8% of γδ thymic emigrants, thymocytes and peripheral blood lymphocytes expressed CD45RA in both fetal and postnatal animals. In contrast to γδ T cells, up to one quarter of both fetal and postnatal αβ emigrants expressed CD45RA. Post-thymic maturation of CD45RA expression on αβ emigrants, which occurred both before and after birth, appeared to be antigen independent.  相似文献   

20.
Experimental infection of mice with the intracellular bacterium, Listeria monocytogenes, provides a paragon model for immune defence dominated by T helper type 1 (Th1) responses. Potent production of interleukin (IL)-12 by infected macrophages is considered the determining factor in Th1 cell development. In contrast, it is assumed that IL-4 producers remain virtually unstimulated in listeriosis. In the liver, the major target organ of listeriosis, an unusual T lymphocyte population exists with the intriguing phenotype CD4+NK1.1+ TCRα/βintermediate (TCRα/βint). Here we show that IL-4-producing CD4+NK1.1+TCRα/βint liver lymphocytes are down-regulated early in listeriosis. We assume that curtailment of IL-4-producing CD4+NK1.1+TCRα/βint liver lymphocytes promotes unconstrained development of Th1 cells which are central to protection against intracellular bacteria.  相似文献   

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