Circulating immature and mature dendritic cells in relation to lymphocyte subsets in patients with gastrointestinal tract cancer

Cancer-related deficiency in circulating dendritic cells (DC), whose important anticancer role is well established, has been proven to be associated with lymphocytopenia. This study was performed to evaluate which lymphocyte subset is most markedly related to the failure of the DC system. The study included 30 patients with gastrointestinal tract cancer, 10 of whom had distant organ metastases. Immature and mature DCs were measured by FACS and monoclonal antibodies against CD123 and CD11c antigens, respectively. Low levels of immature and mature DCs were observed in 63% and 43% of patients, respectively. Patients with low levels of circulating mature DCs had significantly lower values of T lymphocytes, T helper lymphocytes and NK cells than those with normal mature DC levels. In contrast, no significant difference was seen between patients with normal or abnormally low values of immature DCs. Conversely, patients with a decreased number of T lymphocytes, T helper lymphocytes and NK cells showed significantly lower values of circulating mature DCs than those with lymphocyte subsets within the normal range, whereas no difference was seen in immature DC amounts. This study suggests that only mature DC deficiency may be associated with important lymphocyte subset alterations in cancer patients, whereas deficiency in immature DCs does not seem to be related to other immune cell disorders.     

Pathophysiologic analysis of peripheral blood lymphocytes from patients with primary immunodeficiency. I. Ig synthesis by peripheral blood lymphocytes stimulated with either pokeweed mitogen or Epstein-Barr virus in vitro

In the present study 5 patients with common variable hypogammaglobulinemia (CVH) and 4 patients with selective IgA deficiency (IgA-D) were analyzed for the cellular defects responsible for impaired Ig synthesis with use of peripheral blood lymphocytes stimulated with either PWM or EBV in vitro. By the use of co-culture with PWM, all the patients examined had intrinsic B cell defects restricted to the synthesis of Ig class corresponding to the low or absent Ig class(es) in the sera. Two types of excessive suppressor T activity were found, which were abrogated by irradiation. One was isotype-nonspecific and the other was IgA-specific. Moreover, failure of IgA-specific helper T activity was demonstrated. The use of EBV as an agent that polyclonally activates B cells independently of T cells and monocytes should allow a clearer delineation of the level of the B cell defects. When co-cultured with EBV, B cells from 3 patients with CVH produced normal to subnormal quantities of IgM although they could produce no IgM upon co-culturing with normal T cells and PWM. B cells from 2 patients with CVH could produce IgM normally by stimulation with either PWM or EBV; however, there was no restoration to produce IgG or IgA in these patients. In addition, B cells from 2 patients with IgA-D produced not only IgG and IgM but also IgA almost normally at 4 days after in vitro stimulation with EBV.     

The disabled dendritic cell.

Dendritic cells are important antigen-presenting cells of the immune system that induce and modulate immune responses. They interact with T and B lymphocytes as well as with natural killer cells to promote activation and differentiation of these cells. Dendritic cells generated in vitro from monocytes by use of the cytokines GM-CSF and IL-4 are increasingly used clinically to enhance antitumor immunity in cancer patients. However, recent studies revealed that the functional repertoire of monocyte-derived dendritic cells may be incomplete. Important functions of monocyte-derived dendritic cells such as migration or the ability to induce natural killer cell activation or type 2 T helper cell differentiation appear to be impaired. We propose that all these deficiencies relate to a single biochemical deficiency of monocyte-derived dendritic cells. IL-4, which is used to generate monocyte-derived dendritic cells, suppresses phospholipase A2, the enzyme that liberates arachidonic acid from membrane phospholipids and contributes to the synthesis of platelet-activating factor. Monocyte-derived dendritic cells must therefore fail to generate platelet-activating factor as well as arachidonic acid derivatives such as prostaglandins, leukotrienes, and lipoxins, collectively referred to as eicosanoids. Since eicosanoids and platelet-activating factor are known to play an important role in processes such as leukocyte migration, natural killer cell activation, and type 2 T helper cell differentiation, the deficiency in eicosanoid and platelet-activating factor biosynthesis may be responsible for the observed handicaps of monocyte-derived dendritic cells.     

Classical ataxia telangiectasia patients have a congenitally aged immune system with high expression of CD95

Ataxia-telangiectasia (A-T) is a rare neurodegenerative immunodeficiency disorder caused by mutations in the ataxia telangiectasia mutated gene. Patients commonly have lymphopenia and Ig-production abnormalities. We used multicolor flow cytometry and IL-7 ELISA to investigate the effect of A-T and age on the proportions of major lymphocyte subsets and their pattern of CD95 expression in relation to IL-7 levels in 15 classical A-T patients. We also analyzed the sensitivity of T cells from four classical A-T patients to CD95-mediated apoptosis using TUNEL and caspase-activation assays. Our results confirmed lymphopenia and a deficiency in naive T and B cells in A-T patients. In contrast to controls, the proportions of naive and memory T and B cell subsets in A-T patients did not vary in relation to age. There was no evidence of a deficiency in plasma IL-7 or IL-7R expression, and IL-7 concentration correlated positively with CD95 expression on CD4(+) T cells. CD95 expression on unstimulated A-T lymphocytes was high, and the apoptotic sensitivity of activated naive and central memory T cells was increased. These findings show that the immunodeficiency in A-T patients may be described as congenitally aged and is not progressive. The naive cell deficiency is not related to a deficiency in IL-7 or its receptor. However, IL-7 may upregulate CD95 on A-T lymphocytes. High CD95 expression and increased apoptotic sensitivity of activated naive and central memory T cells may result in an increased level of CD95-mediated apoptosis, which could contribute to the congenital lymphopenia in A-T.     

Evaluation of the severity of hypoxanthine-guanine phosphoribosyltransferase deficiency using viable T cells

Peripheral T cells from 3 Lesch-Nyhan patients, 3 normal subjects, and 3 brothers with hypoxanthine-guanine phosphoribosyltransferase (HGPRT) deficiency but without Lesch-Nyhan syndrome (so-called partial deficiency) have been analyzed. Although these brothers contained HGPRT activities neither in the hemolysates nor in the T cell extracts at levels detectable by the regular radioenzyme assay, the enzyme deficiency had not caused any typical neurological symptoms of the Lesch-Nyhan syndrome. Although the T cells from these brothers were at least 10-fold more resistant to 6-thioguanine than normal T cells, they were more than 30-fold less resistant than the T cells from 3 Lesch-Nyhan patients indicating that there is a clear difference in the severity of the enzyme deficiency between the brothers and the Lesch-Nyhan patients. These data indicate that the long-term T cell culture in the medium containing a purine analog whose toxicity depends on a salvaging enzyme is useful for evaluating the severity of the enzyme deficiency in viable cells.     

CD69 Does Not Affect the Extent of T Cell Priming

CD69 is rapidly upregulated on T cells upon activation. In this work we show that this is also the case for CD69 expression on dendritic cells (DC). Thus, the expression kinetics of CD69 on both cell types is reminiscent of the one of costimulatory molecules. Using mouse models of transgenic T cells, we aimed at evaluating the effect of monoclonal antibody (MAb)-based targeting and gene deficiency of CD69 expressed by either DC or T cells on the extent of antigen (Ag)-specific T cell priming, which could be the result of a putative role in costimulation as well as on DC maturation and Ag-processing and presentation. CD69 targeting or deficiency of DC did not affect their expression of costimulatory molecules nor their capacity to induce Ag-specific T cell proliferation in in vitro assays. Also, CD69 targeting or deficiency of transgenic T cells did not affect the minimal proliferative dose for different peptide agonists in vitro. In in vivo models of transgenic T cell transfer and local Ag injection, CD69 deficiency of transferred T cells did not affect the extent of the proliferative response in Ag-draining lymph nodes (LN). In agreement with these results, CD69 MAb targeting or gene deficiency of Vaccinia-virus (VACV) infected mice did not affect the endogenous formation of virus-specific CD8⁺ T cell populations at the peak of the primary immune response. Altogether our results argue against a possible role in costimulation or an effect on Ag processing and presentation for CD69.     

Evaluation of lymphocyte differentiation in primary and secondary immunodeficiency diseases

The differentiation status of T and B cells was evaluated in patients with common variable immunodeficiency (CVI), selective IgA deficiency (IgA), X-linked agammaglobulinemia (XLA), and the acquired immune deficiency syndrome (AIDS) with the use of conventional lymphocyte markers and four new monoclonal antibodies that identify lymphocyte subpopulations. These antibodies are HB 4, which identifies a subpopulation of resting B cells; HB 5, which identifies the C3d/EBV receptor on mature B cells; HB 7, which identifies immature B lymphocytes; and HB 10, which reacts with virgin but not activated or memory T cells. T and B cells from the IgA patients typically had normal phenotypic profiles, whereas diverse patterns of lymphocyte maturation were observed in CVI. In 11 of 16 CVI patients, B cells had normal antigenic phenotypes. Although B cells from four other CVI patients had normal frequencies of HB 5 and HB 7 antigen expression, few expressed the HB 4 antigen, suggesting that they were activated. In contrast, a large percentage of B cells from one CVI patient were of an immature phenotype. The expression of the HB 10 antigen by T cells in CVI patients was also variable, being normal in 10 of 16 patients, yet significantly decreased in six others. The vast majority of the limited numbers of IgM B cells from five XLA patients (greater than 100-fold reduction) has an immature phenotype (HB 4-5-7+). Interestingly, the circulating T cells in XLA patients were phenotypically similar to those in normal newborns, suggesting that T cell immaturity or defective T cell activation may occur in these B cell-deficient individuals. Circulating B cells from AIDS patients were mostly HB 7-, with variable expression of the HB 4 antigen and significantly decreased expression of the HB 5 antigen. Most of the T cells from AIDS patients were HB 10-, and thus appeared to be activated.     

Selection against blood cells deficient in hypoxanthine phosphoribosyltransferase (HPRT) in Lesch-Nyhan heterozygotes occurs at the level of multipotent stem cells

Lesch-Nyhan syndrome is caused by a severe genetic deficiency of hypoxanthine phosphoribosyltransferase (HPRT) and is characterized by central nervous system disorders, gout, and in some cases, macrocytic anemia. Women heterozygous for HPRT deficiency are healthy but their somatic cells are mosaic for enzyme deficiency owing to random inactivation of the X chromosome. Frequencies of red blood cells and T cells deficient in HPRT are significantly lower than the expected 50% in heterozygotes, suggesting that HPRT-negative blood cells are selected against in heterozygotes. To determine at which stage of hematopoiesis such selection occurs, we determined the frequencies of HPRT-negative T, B and erythroid precursor cells in three heterozygotes. Since the cloning efficiencies of T and B cells and colony forming efficiency of burst-forming unit erythroid (BFU-E) for sample from Lesch-Nyhan patients were similar to those of normal cells, HPRT deficiency does not seem to render the differentiated cells less efficient for proliferation. However, the frequencies of HPRT-negative T and B cells, and BFU-E were all less than 10% in each of the three heterozygotes. Although the frequencies of HPRT-negative cells showed tenfold variations between the heterozygotes, each heterozygote had similar frequencies of HPRT-negative cells in the three cell types. These results suggest that HPRT is important at early stages of hematopoiesis, but less so after the cells have differentiated into T cells, B cells and erythroid precursor cells.     

A deficiency of vitamin B6 is a plausible molecular basis of the retinopathy of patients with diabetes mellitus

Eighteen patients with diabetes mellitus, some of whom had variously retinopathy, pregnancy, and the carpal tunnel syndrome, and were variously treated with steroids and vitamin B6, have been overviewed for periods of 8 months to 28 years. We have established an association of a deficiency of vitamin B6 with diabetes by monitoring the specific activity of the erythrocyte glutamic oxaloacetic transaminase and again by the association with the carpal tunnel syndrome (C.T.S.). It has been known for a decade that C.T.S. is caused by a B6 deficiency. The absence of retinopathy in vitamin B6-treated diabetic patients over periods of 8 months - 28 years appears monumental. These observations are like discovery and constitute a basis for a new protocol to establish the apparent relationship of a deficiency of vitamin B6 as a molecular cause of diabetic neuropathy. Blindness and vision are so important that the strength or weakness of the observations are not important; the conduct of a new protocol is important.     

Deficiency of the CD3-TCR signal pathway in three patients with idiopathic CD4+ lymphocytopenia

Idiopathic CD4+ lymphocytopenia (ICL) is a rare syndrome affecting adults and defined by a stable loss of CD4+ T cells in the absence of any known cause of immune deficiency. Defective T-cell proliferations to mitogens and antigens have been described in some of such patients displaying clinical signs of immune deficiency such as opportunistic infections. We investigated here the hypothesis that T-cell depletion and dysfunction could be due to biochemical defects of the CD3-TCR pathway in CD4+ and/or CD8+ subsets from three patients with severe stable ICL (below 150 CD4+ T cells/microliter) and opportunistic infections. Patient 1 had a general T lymphocytopenia, whereas patients 2 and 3 displayed a selective loss of CD4+ T cells. We observed in all patients a major reduction of the proliferative response to CD3-TCR stimulation that affected only the depleted T-cell subpopulation. Moreover, in two cases, impaired early biochemical events of the CD3-TCR pathway were detected. In patient 1 and 3, we found a defect (of distinct intensity) of CD3-induced protein tyrosine phosphorylation in CD4+ cells compared to control cells, whereas this process was normally induced in CD4+ T cells from patient 2. Taken together, this study reveals that the heterogeneity of the ICL syndrome was situated at the cellular level, and involved in two cases abnormalities of transducing molecules of the CD3-TCR pathway.     

Sepsis-induced apoptosis causes progressive profound depletion of B and CD4+ T lymphocytes in humans

Patients with sepsis have impaired host defenses that contribute to the lethality of the disorder. Recent work implicates lymphocyte apoptosis as a potential factor in the immunosuppression of sepsis. If lymphocyte apoptosis is an important mechanism, specific subsets of lymphocytes may be more vulnerable. A prospective study of lymphocyte cell typing and apoptosis was conducted in spleens from 27 patients with sepsis and 25 patients with trauma. Spleens from 16 critically ill nonseptic (3 prospective and 13 retrospective) patients were also evaluated. Immunohistochemical staining showed a caspase-9-mediated profound progressive loss of B and CD4 T helper cells in sepsis. Interestingly, sepsis did not decrease CD8 T or NK cells. Although there was no overall effect on lymphocytes from critically ill nonseptic patients (considered as a group), certain individual patients did exhibit significant loss of B and CD4 T cells. The loss of B and CD4 T cells in sepsis is especially significant because it occurs during life-threatening infection, a state in which massive lymphocyte clonal expansion should exist. Mitochondria-dependent lymphocyte apoptosis may contribute to the immunosuppression in sepsis by decreasing the number of immune effector cells. Similar loss of lymphocytes may be occurring in critically ill patients with other disorders.     

Zinc deficiency drives Th17 polarization and promotes loss of Treg cell function

A high number of illnesses and disorders are connected to zinc deficiency. Equally, T cell polarization and a balance between different T helper (Th) cell subsets are essential. Therefore, in this study, the influence of zinc deficiency on T cell polarization and on respective signaling pathways was investigated. We uncovered a significantly increased number of regulatory T cells (Treg) and Th17 cells in expanded T cells during zinc deficiency after 3 days of combined treatment with IL-2 and TGF-β1 (Treg) or IL-6 and TGF-β1 (Th17). No difference in Th1 and Th2 cell polarization between zinc-deficient and zinc-adequate status was prominent. On the molecular level, Smad signaling was significantly enhanced by stimulation with TGF-β1/IL-6 during zinc deficiency compared to adequate zinc condition. This represents an explanation for the elevated Th17 cell numbers associated with autoimmune disease especially during zinc deficiency. Moreover, Treg cell numbers are increased during zinc deficiency as well. However, those cells might be nonfunctional since a lower expression of miR-146a was uncovered compared to normal zinc concentrations. In summary, an adequate zinc homeostasis is fundamental to slow down or probably stop the progression of autoimmune diseases and infections. Therefore, supplementing zinc might be a therapeutic approach to dampen autoimmune diseases connected to Th17 cells.     

Astragaloside IV prevents MPP+-induced SH-SY5Y cell death via the inhibition of Bax-mediated pathways and ROS production

Deficiency of zinc plays an important role in the pathogenesis of osteoporosis; however, the underlying mechanism is not well understood. Apoptosis of osteoblast causing the loss of bone mass is an important event in the osteoporosis. In this article, we investigated whether zinc deficiency would induce cell apoptosis in MC3T3-E1 cells and ask if it is involved in mitochondrial-mediated pathway. Significant increased apoptosis were observed in zinc deficiency group (ZnD: 5 μM TPEN and 1 μM zinc) compared with untreated control or zinc adequacy group (ZnA: 5 μM TPEN and 15 μM zinc). The mitochondrial membrane potential was strikingly reduced in ZnD group. Furthermore, we observed that the levels of Bax in mitochondria fraction and cyto c, AIF, and cleaved caspase-3/-9 in cytosol fraction were increased in ZnD group. We proposed that zinc deficiency would induce the translocation of Bax into mitochondria, which could lead to the reduction in mitochondrial membrane potential as well as the increase in mitochondrial membrane permeability. In addition, cyto c and AIF were released from mitochondria into the cytosol, which finally activated caspase-dependent and caspase-independent apoptosis processes in MC3T3-E1 cells. Our findings suggested that zinc deficiency is capable of inducing apoptosis through a mitochondria-mediated pathway in osteoblastic cells.     

Zinc and immunity

Nutritional deficiency of zinc is widespread throughout the developing countries and a conditioned deficiency of zinc is known to occur in many diseased states. Zinc is known to play an important role in the immune system and zinc deficient subjects may experience increased susceptibility to a variety of pathogens. We have studied the effects of a mild deficiency of zinc on T cells in an experimental model of human zinc deficiency. We showed that T cell functions were affected adversely even when the deficiency of zinc was mild in humans. Characteristically during zinc deficiency, the serum thymulin activity (a thymic hormone) was decreased which was restored following zinc supplementation. Our studies also showed that zinc deficiency caused an imbalance between TH1 and TH2 functions. The production of IFN-g, IL-2, TNF-a (products of TH1 cells) were decreased, whereas the production of IL-4, IL-6 and IL-10 (products of TH2) were not affected during zinc deficiency. T cell subpopulation studies revealed that the CD4+ CD45RA+ to CD4+ CD45RO+ ratio was decreased as a result of zinc deficiency, suggesting that zinc may be required for the regeneration of new CD4+ T cells. We further documented that zinc deficiency decreased NK cell lytic activity and caused a decrease in the percentage of CD8+ CD73+ T cells which are known to be predominantly precursors of cytotoxic T cells. In a suitable cell culture model our studies revealed that the gene expression of a DNA synthesizing enzyme TK was affected adversely which resulted in delayed cell cycle and decreased cell growth. The above immunological consequences of zinc deficiency may be responsible for decreased cell mediated immune functions in zinc deficient subjects.     

多发性骨髓瘤患者外周血淋巴细胞亚群分析及与预后因子的相关性

目的通过对多发性骨髓瘤（MM）患者外周血淋巴细胞亚群的检测以评价MM患者机体的免疫功能状态。方法采用流式细胞术检测36例MM患者和25例健康志愿者外周血T、B淋巴细胞、NK细胞及CD4＋CD25＋T细胞的表达。结果与正常对照组相比,MM患者外周血的CD4、CD19细胞的表达显著下调,CD8细胞的表达显著上调,CD4/CD8比值则显著降低（P〈0.05或〈0.01）;MM患者外周血的CD4＋CD25＋T细胞占CD3＋T细胞的比例明显增高（P〈0.01）,且与血清中的β2-MG浓度成正相关（γ=0.56,P〈0.05）。结论 MM患者体内存在淋巴细胞亚群的异常表达、CD4＋CD25＋Treg细胞的异常扩增,可能是MM患者体内广泛存在免疫缺陷的一个主要原因。     

Impaired secretion of IL-10 by T cells from patients with common variable immunodeficiency--involvement of protein kinase A type I

Common variable immunodeficiency (CVID) is a heterogeneous group of B cell deficiency syndromes. T cell abnormalities are present in a high proportion of patients with CVID, suggesting impaired T cell-mediated stimulation of B cells. Based on the importance of IL-10 for B cell function and the involvement of the cAMP/protein kinase A type I (PKAI) system in IL-10 synthesis, we examined IL-10 secretion in T cells from CVID patients and controls, particularly focusing on possible modulatory effects of the cAMP/PKAI system. Our main findings were: 1) anti-CD3 and anti-CD3/anti-CD28 activated T cells from CVID patients secreted less IL-10 than healthy controls. This defect was not related to varying proportions of T cell subsets (e.g., CD4(+)/CD8(+), CD45RA(+)/RO(+), or CD28(-) T cells); 2) PKAI activation through the cAMP agonist 8-CPT-cAMP markedly inhibited IL-10 secretion from T cells through CD3 and CD28 activation in both patients and controls, but the sensitivity for cAMP-dependent inhibition was increased in CVID; 3) selective PKAI inhibition by Rp-8-Br-cAMPS markedly increased IL-10 secretion in anti-CD3 and anti-CD3/anti-CD28-stimulated T cells in both patients and controls. Even at the lowest concentrations of Rp-8-Br-cAMPS, IL-10 secretion in CVID patients reached levels comparable to those in controls. Our findings suggest impaired secretion of IL-10 by T cells from CVID patients, suggesting a possible link between T cell deficiency and impaired B cell function in CVID. The involvement of the cAMP/PKAI system in this defect suggests a novel target for therapeutic immunomodulation in CVID.     

Cutaneous inflammatory disorder in integrin alphaE (CD103)-deficient mice

The integrin alpha(E)beta(7) is thought to play an important role in the localization of mucosal, but not of cutaneous T lymphocytes. Thus, it was surprising that 89% of adult alpha(E)(-/-) mice on the 129/Sv x BALB/c background developed inflammatory skin lesions without an apparent infectious etiology. Skin inflammation correlated with alpha(E) deficiency in mice with a mixed 129/Sv x BALB/c background, but not in mice further backcrossed to BALB/c and housed in a second animal facility. These studies suggested that alpha(E) deficiency, in combination with other genetic and/or environmental factors, is involved in lesion development. The lesions were infiltrated by CD4(+) T cells and neutrophils, and associated with increased expression of inflammatory cytokines. Furthermore, skin inflammation resulted from transfer of unfractionated alpha(E)(-/-) splenocytes into scid/scid mice, but not from transfer of wild-type splenocytes, suggesting that the lesions resulted from immune dysregulation. We also studied the role of alpha(E)beta(7) in a murine model of hyperproliferative inflammatory skin disorders that is induced by transfer of minor histocompatibility-mismatched CD4(+)/CD45RB(high) T cells into scid/scid mice under specific environmental conditions. Under housing conditions that were permissive for lesion development, transfer of alpha(E)-deficient CD4(+)/CD45RB(high) T cells significantly exacerbated the cutaneous lesions as compared with lesions observed in mice reconstituted with wild-type donor cells. These experiments suggested that alpha(E)-expressing cells play an important role during the course of cutaneous inflammation. In addition, they suggest that alpha(E)beta(7) deficiency, in combination with other genetic or environmental factors, is a risk factor for inflammatory skin disease.     

Chronic immune thrombocytopenic purpura in hemophilia A.

Chronic immune thrombocytopenic purpura resistant to steroid therapy occurred in a 30-year-old patient with severe hemophilia A. This association has recently been reported in other patients, and a possible relation to the acquired immune deficiency syndrome (AIDS) has been suggested. Although this patient had been treated with factor VIII concentrate for 4 years, the proportions of helper and suppressor T cells were normal, and there was no evidence of AIDS. An uncomplicated splenectomy gave excellent results. All patients with hemophilia should have their platelet counts monitored closely and should report any unusual pattern of bleeding.     

A critical analysis of the HIV-T4-cell-AIDS hypothesis

The data generally accepted as proving the HIV theory of AIDS, HIV cytopathy, destruction of T4 lymphocytes, and the relationship between T4 cells, HIV and the acquired immune deficiency clinical syndrome are critically evaluated. It is concluded these data do not prove that HIV preferentially destroys T4 cells or has any cytopathic effects, nor do they demonstrate that T4 cells are preferentially destroyed in AIDS patients, or that T4 cell destruction and HIV are either necessary or sufficient prerequisites for the development of the clinical syndrome.Knowledge is one. Its division into subjects is a concession to human weakness.     

Interactions between CD47 and thrombospondin reduce inflammation

CD47 on the surface of T cells was shown in vitro to mediate either T cell activation or, in the presence of high amounts of thrombospondin (TSP), T cell apoptosis. We report here that CD47-deficient mice, as well as TSP-1 or TSP-2-deficient mice, sustain oxazolone-induced inflammation for more than four days, whereas wild-type mice reduce the inflammation within 48 h. We observe that prolonged inflammation in CD47-, TSP-1-, or TSP-2-deficient mice is accompanied by a local deficiency of T cell apoptosis. Finally, we show that upon activation normal T cells increase the expression of the proapoptotic Bcl-2 family member BNIP3 (Bcl-2/adenovirus E1B 19-kDa interacting protein) and undergo CD47-mediated apoptosis. This finding is consistent with our previous demonstration of a physical interaction between BNIP3 and CD47 that inhibits BNIP3 degradation by the proteasome, sensitizing T cells to CD47-induced apoptosis. Overall, these results reveal an important role in vivo for this new CD47/BNIP3 pathway in limiting inflammation by controlling the number of activated T cells.