Expression and function of Fas antigen on activated murine B cells

We have studied the expression and function of Fas antigen on murine B lymphocytes. While Fas was present on only a few B cells in the bone marrow, spleen, lymph node or peripheral blood, its expression could be strongly up-regulated by stimulation with soluble CD40 ligand (CD40L). Treatment with anti-IgM and interleukin-4 (IL-4) alone did not induce significant Fas expression but enhanced CD40L-mediated up-regulation of Fas expression. The T cell-derived signal via CD40 is therefore a potent inducer of Fas expression by B lymphocytes. The sensitivity to Fas-mediated apoptosis was found to depend on the duration of B cell activation. B cells activated for 1 day were resistant to Fas-mediated cell death, whereas B cells activated for 3 days were relatively sensitive. Interestingly, different sensitivity to Fas-mediated death signal was observed in 2-day activated B cells. It was found that B cells stimulated with CD40 L alone were more sensitive to Fas-mediated apoptosis than were cells stimulated with CD40L plus anti-IgM or IL-4, and in particular, the combination of the two. The greater sensitivity exhibited by B cells stimulated with CD40L alone seems to be related to limited activation of these cells in the absence of additional stimulation. Co-stimulation of B cells in the presence of CD40L and anti-Fas antibody resulted initially in activation of B lymphocytes, as reflected by the expression of activation markers and cell growth, but this was followed by growth inhibition and cell death. The data demonstrate that the B cell response can be regulated positively and negatively by signaling through CD40 and Fas antigens, respectively.     

Regulation of Fas(Apo-1/CD95)- and perforinmediated lytic pathways of primary cytotoxic T lymphocytes by the protooncogene bcl-2

Cytotoxic T cells (CTL) induce cell death of their target cells either by the surface interaction between Fas ligand and Fas or by the release of perforin and granzymes. Both lytic pathways induce apoptosis yet it is not known whether identical or distinct apoptotic pathways are activated. The protooncogene bcl-2 is known to protect various hematopoietic cells from apoptosis induced by diverse agents. Here we show that overexpression of the Bcl-2 protein in the murine mastocytoma line P815 or in concanavalin A-activated splenocytes suppresses apoptotic cell death induced by allospecific primary cytotoxic T lymphocytes (CTL) in which only the Fas lytic pathway was functional. Bcl-2 also reduced target cell killing induced by CTL whose lytic activity was dependent on the perforin/granzyme pathway only. These data provide evidence that, in the target cells studied here, both perforin/granzyme and Fas apoptotic pathways are modulated by Bcl-2 and suggest that these two pathways converge at a step prior to Bcl-2 inhibition.     

Inhibition of CD95 (Fas/Apo1)-mediated apoptosis by vaccinia virus WR

Stimulation of the CD95 (Apo-1/Fas) molecule either by the CD95 ligand or by monoclonal antibodies induces programmed cell death by apoptosis in a variety of cell lines and primary cells. In this study we observed that infection of B lymphoblast and T lymphoblast cell lines with vaccinia virus strain WR and recombinant vaccinia WR constructs, but not strain Copenhagen, rendered cells refractory to CD95-mediated apoptosis. In particular, vaccinia virus infection suppressed anti-CD95 antibody-induced membrane disintegration, apoptotic nuclear morphology of cells, and DNA fragmentation. Inhibition of apoptosis was not mediated by CD95 down-regulation or reduced binding of anti-CD95 antibody to infected cells, and occurred at a time point when cellular metabolism was not yet affected by the lytic vaccinia virus infection. Vaccinia virus (WR)-infected cells were resistant to CD95 ligand–CD95-mediated lysis by CD4⁺ and CD8⁺, T lymphocytes. Because cytolysis mediated by CD95 is one of two major mechanisms used by cytotoxic T lymphocytes to kill target cells, inhibition of CD95-mediated apoptosis may constitute a novel immune escape mechanism for this virus. Additionally, this mechanism may contribute to the higher pathogenicity of vaccinia virus strain WR compared with strain Copenhagen.     

人Fas抗原及其变异体的结构与功能

Fas(Apo- 1/CD95 )属 TNFR/NGFR家族 ,为“死亡受体”,因为其介导凋亡的作用倍受人们关注。目前对 Fas抗原及其基因的结构与功能研究已较为清楚 ,Fas的变异体及 Fas基因突变的形成和功能研究也取得一定的进展。     

Expression and function of the Fas receptor on human blood and tissue eosinophils

The interaction between activated T cells and eosinophils has been proposed to play an important role in the pathogenesis of allergic diseases. T cell-derived cytokines such as interleukin-5 and granulocyte/macrophage colony-stimulating factor inhibit eosinophil apoptosis and may therefore contribute to the development of tissue and blood eosinophilia in these disorders. Withdrawal of these cytokines leads to eosinophil apoptosis in vitro. In contrast, the mechanisms which actively induce apoptosis in eosinophils are at present not completely understood. In this study, we demonstrate that freshly isolated human eosinophils express mRNA and protein for the Fas receptor. Using anti-Fas monoclonal antibody (mAb), we show that Fas activation accelerates apoptotic eosinophil death in vitro. Moreover, treatment of nasal polyps ex vivo with anti-Fas mAb decreased eosinophilic tissue inflammation. However, we observed that blood as well as tissue eosinophils derived from some eosinophilic donors do not express functional Fas receptors, although Fas protein is normally expressed in these cells. This implies that the susceptibility of the Fas receptor is a matter of regulation in eosinophils as previously observed in other systems. These data suggest that Fas ligand/Fas interactions are involved in the regulation of eosinophil apoptosis and that defects in this system could contribute to the accumulation of these cells in allergic and asthmatic diseases.     

Local Fas/APO-1 (CD95) ligand-mediated tumor cell killing in vivo

Fas/APO-1 (CD95) is a cell surface receptor which mediates apoptosis when ligated by specific antibodies or by its recently cloned natural ligand, FasL. We have studied the cytotoxic potential of FasL in vivo using Fas/APO-1-expressing Yac-1 cells as targets. Supernatant harvested from Neuro-2a cells transfected with the murine FasL cDNA contains FasL and transduces a potent apoptotic signal to Yac-1 cells in vitro. Specificity of FasL-mediated cytotoxicity was confirmed by competition assays using soluble Fas or anti-Fas/APO-1 F(ab')₂ fragments which specifically interfere with FasL-Fas/APO-1 interactions. Intraperitoneal injection of FasL-containing supernatant efficiently killed Yac-1 target cells which had been implanted in capsules into the peritoneal cavity of mice. Analysis of the target cells revealed DNA fragmentation and nuclear changes typical of apoptosis. As previously shown, intraperitoneal injection of anti-Fas/APO-1 antibodies caused liver failure (Ogasawara, J., Watanabe, F. R., Adachi, M., Matsuzawa, A., Kasugai, T., Kitamura, Y., Itoh, N., Suda, T. and Nagata, S., Nature 1993. 364: 806) and was observed at doses which did not reduce Yac-1 cell viability. In contrast, FasL did not induce histopathology in the liver when applied intraperitoneally at doses cytotoxic for Yac-1 cells. However, intravenous administration of FasL induced lethal liver hemorrhages and hepatocyte apoptosis. Thus, locally applied FasL kills tumor cells very efficiently without systemic toxicity and may therefore represent a candidate for local tumor treatment.     

Regulation of cell surface APO-1/Fas (CD95) ligand expression by metalloproteases

APO-1/Fas (CD95) ligand (APO-1L) induces apoptosis in sensitive target cells. Activation-induced T cell death and Ca²⁺-independent cytotoxicity in perforin knockout mice are mediated by APO-1L. To define whether APO-1L is expressed on the surface of activated T cells and to investigate the mechanisms leading to the release of a soluble form, we developed rabbit anti-APO-1L antibodies (Ab). The purified rabbit Ab detected the mature forms of the human and mouse APO-1L of approximately 42 and 40kDa. In addition, the Ab recognized the non-glycosylated form of APO-1L of approximately 32-33 kDa. In activated human T cells, the soluble form of APO-1L was detectable with a moleculas mass of 26 kDa. Immunofluorescence of three human T lymphoblastoid cell lines showed that activation of these cells by phorbol 12-myristate 13-acetate/ionomycin induced a significant increase in cell surface APO-1L only in the presence of metalloprotease inhibitors. Zn²⁺, but not Ca²⁺, prevented the increase in surface APO-1L observed in the presence of 1,10-phenanthroline. Blocking of other classes of proteases (serine- and acid-proteases, chymotrypsin) had no effect. Increased expression of surface APO-1L by metalloprotease inhibitors was not dependent on T cell activation, as the metalloprotease inhibitors also modulated the low level of constitutive APO-1L expression. These results suggest that cell surface expression of human APO-1L is regulated by Zn²⁺-dependent metalloproteases. Cleavage of surface APO-1L may act as a regulatory mechanism to prevent accumulation of the membrane-bound form and may cause systemic effects of the APO-1L.     

Agonist antibody and Fas ligand mediate different sensitivity to death in the signaling pathways of Fas and cytoplasmic mutants

We have produced three forms of human Fas: full-length Fas, Fas with a C-terminal deletion, and a chimera between extracellular Fas and the intracellular domain of the tumor necrosis factor receptor I p55 subunit. We transfected cell lines with these constructs to compare the relative capacity of antibody agonists and the physiological Fas ligand (FasL) to stimulate death. With two agonistic antibodies, the chimera is 100- to 1000-fold more sensitive to induction of death than the full-length Fas. The C-terminal deletion mutant also shows greatly enhanced death in comparison to the wild-type receptor. In contrast, when FasL is used to trigger the Fas pathway, wild-type Fas and the deletion mutant are similarly sensitive, whereas the chimera is 100-fold less susceptible to ligand-mediated killing than Fas. This demonstrates that antibody agonists and natural ligand can stimulate different signaling pathways and emphasizes the limitations of defining physiologically important signaling pathways solely by antibody agonists.     

Aberrant integrin activation induces p38 MAPK phosphorylation resulting in suppressed Fas-mediated apoptosis in T cells: Implications for rheumatoid arthritis

Delayed Fas-mediated apoptosis in T cells is associated with inflammatory diseases including rheumatoid arthritis (RA). CD3⁺ T cells in RA synovia expressed high amounts of phospho-p38 MAPK. Exposure to RA synovial fluid or soluble collagen, a degradation product of extracellular matrix abundant in RA synovium, induced the phosphorylation of p38 MAPK in Jurkat T cells accompanied by resistance against Fas-mediated apoptosis. Blocking β1 integrin by antibody diminished this effect. In addition, ectopic expression of auto-activated β1 integrin variant in T cells profoundly induced the phosphorylation of p38 MAPK. Suppression of p38 MAPK sensitized T cells to Fas-mediated apoptosis and increased caspase-8 and caspase-3 cleavage. A physical interaction of p38 MAPK and caspase-8 was demonstrated by using confocal microscopic imaging and co-immunoprecipitation assay. RA synovial fluid markedly increased the formation of phospho-p38 MAPK/caspase-8 complex in Jurkat T cells. In conclusion, abnormal activation of p38 MAPK to prevent Fas-mediated apoptosis may represent a common survival mechanism of RA synovial T cells contributing to the persistent inflammation of affected synovium.     

Plastic-immobilized anti-μ or anti-δ antibodies induce apoptosis in mature murine B lymphocytes

It is widely accepted that extensive cross-linking of surface immunoglobulin (sIg) receptors on mature B cells promotes their activation and progression through the cell cycle. A commonly employed method to maximize receptor cross-linking via anti-receptor antibodies is to immobilize them on tissue culture plastic. We show here that immobilizing monoclonal anti-μ or anti-δ antibodies, which are mitogenic in solution, on plastic abrogates their capacity to induce DNA synthesis in mature murine B cells, even in the presence of interleukin-4 (IL-4). The cells do become abortively activated, as evidenced by up-regulation of major histocompatibility complex class II antigen levels, but subsequently virtually all of them die, manifesting DNA fragmentation characteristic of apoptosis. The induction of apoptosis is abrogated by the inclusion of either IL-4 or anti-CD40 antibodies in the cultures, with the two stimuli acting in concert. We believe that the system represents a polyclonal model of clonal deletion tolerance in mature B cells, such as may be induced under physiological conditions by antigens with repeating epitopes.     

The Fas antigen (CD95) on human lymphoid cells: epitope analysis with ten antibodies

The expression of CD95 antigen was examined on adult and cord blood lymphocytes using a highly sensitive immunofluorescence/flow cytometric procedure. CD95 was expressed by the majority of circulating blood T cells in adults, and by a smaller proportion of CD4+ and CD8+ T cells in cord blood. The majority of circulating B cells did not react with seven CD95 antibodies, but three antibodies did stain B cells. In tonsil sections, CD95 was expressed throughout the tissue, but germinal centres showed generally stronger staining than the surrounding follicular mantle and interfollicular areas. This was confirmed by flow cytometry, which showed expression preferentially on B cells with a germinal centre phenotype. Because different antibodies stained different proportions of B cells, CD95 epitopes were examined by inhibition, additive binding and protease susceptibility studies using a panel of ten CD95 antibodies. B cells apparently reacting selectively with CD95 antibodies were sorted and CD95 mRNA was reverse transcribed to cDNA and analyzed, in order to confirm the presence of CD95 in cells which reacted selectively and to explore the possible existence of CD95 isoforms. The major cDNA band was identical in the two populations. Inhibition of N-glycosylation suggested that the epitopes detected differentially could not be accounted for by differential N-glycosylation.     

Oleandrin-Mediated Expression of Fas Potentiates Apoptosis in Tumor Cells

Chemotherapeutic agent is characterized by its concentration in tumor cells with minimum side effects. Oleandrin, a polyphenolic cardiac glycoside is known to induce apoptosis in tumor cells. However, no report is available on its efficacy in primary cells. In this report we are providing the evidence that oleandrin induces apoptosis, not necrosis in tumor cells but not in primary cells like peripheral blood mononuclear cells (PBMC) and neutrophils. Oleandrin inhibited NF-κB activation in tumor cells but not in primary cells. It induced cell death in NF-κB-overexpressed tumor cells. Oleandrin induced Fas expression thereby inducing apoptosis in tumor cells but not in primary cells. Dominant negative FADD inhibited oleandrin-induced cell death in tumor cells. Overall, these results suggest that oleandrin mediates apoptosis in tumor cells by inducing Fas but not in primary cells indicating its potential anti-cancer property with no or slight side effect.     

Essential role for hematopoietic Fas ligand (FasL) in the suppression of melanoma lung metastasis revealed in bone marrow chimeric mice

The outcome of cancer metastasis depends on multiple interactions between the malignant cell and the host environment. Such interactions can influence primary cancer growth and metastasis by altering the balance between tumor cell proliferation and death. We have previously reported that the pro-apoptotic protein FasL could potently suppress spontaneous lung metastasis of the Fas-sensitive melanoma, K1735-P. In this report, we have constructed bone marrow chimeric mice using wt and FasL-deficient animals to delineate the source of FasL (hematopoietic or nonhematopoietic) required to control spontaneous metastatic spread from a subcutaneous tumor. Using FasL-deficient animals (gld) reconstituted with wt FasL bone marrow (wt --> gld), and wt animals reconstituted with FasL-derived bone marrow (gld --> wt), we show, for the first time, an essential role for hematopoietic-derived FasL in the suppression of K1735-P metastasis. When FasL was expressed only in the nonhematopoietic compartment (gld --> wt), K1735-P spread was ineffectively controlled with a metastatic phenotype similar to that observed in animals completely lacking FasL (gld --> gld or gld controls). These studies provide evidence for the indispensable role for FasL+ bone marrow-derived cells in the control of melanoma and offer a strategy to target FasL expression in the prevention or therapy of metastatic disease.     

Expression and prognostic value of c-Myc and Fas (CD95/APO1) in patients with pancreatic cancer

The identification of molecular prognostic markers for pancreatic cancer patients could provide insightful information for their management in the clinic. The aim of the study is to investigate whether or not the expressions of c-Myc and Fas (CD95/APO1) have prognostic relevance for overall survival (OS) in patients with pancreatic cancer. we used immunohistochemistry on tissue microarrays containing 162 pancreatic cancer specimens to assess the protein expression levels of c-Myc and Fas. Kaplan-Meier survival analysis demonstrated that high level of c-Myc cytoplasmic expression was significantly correlated with worse survival in patients with pancreatic cancer (P = 0.012), while high level of Fas cytoplasmic expression was significantly associated with better outcome of pancreatic cancer (P = 0.046). However, multivariate Cox model analysis showed that tumor differentiation, lymph node status and c-Myc cytoplasmic expression were significant independent prognostic factors for OS (P < 0.001, P = 0.023, P = 0.001, respectively). On the contrary, Fas cytoplasmic expression did not independently influence patient’s prognosis (P = 0.249). Our data suggested that high level of c-Myc cytoplasmic expression may be considered as a valuable marker for prognosis of pancreatic cancer.     

Fas (CD95)-transduced signal preferentially stimulates lupus peripheral T lymphocytes

Fas (CD95) is a cell surface receptor whose biological function in circulating peripheral T cells is not well understood. To address the question of abnormal T cell sensitivity to Fas stimulation in systemic lupus erythematosus (SLE), we studied Fas-transduced stimulation and apoptosis in peripheral blood T cells from patients with SLE and normal control. Immobilized anti-Fas monoclonal antibodies (mAb) (imCH-11; IgM type) significantly stimulated SLE T cell proliferation compared to T cells from normal donors and patients with rheumatoid arthritis ( p < 0.003 and p < 0.005, respectively). The soluble form of CH-11 and other immobilized anti-Fas mAb (UB-2, ZB-4; IgG type) failed to stimulate lupus T cells while immobilized human Fas ligand did. Furthermore, imCH-11 induced IL-2 and IL-6 mRNA expression. However, imCH-11 activation failed to induce expression of the T cell activation surface molecules CD25 and CD69. Addition of exogenous ceramide, a second messenger for Fas-mediated apoptosis signaling, also induced T cell proliferation in SLE and normal controls. Moreover, fumonisin B1, a specific ceramide synthase inhibitor, and caspase inhibitors markedly suppressed imCH-11 induced T cell proliferation, suggesting that the ceramide pathway may be involved in Fas-transduced stimulation signals in SLE T cells. These results show that SLE T cells have an alteration in the Fas signal transduction pathway leading to cell proliferation. This defect may be important in Fas-mediated peripheral immune homeostasis.     

Fas/APO-1/CD95 in health and autoimmune disease: thymic and peripheral aspects

Fas is a relative of the tumor necrosis factor receptor super–family. The receptors of this family play an important role in decisions of survival and cell death by apoptosis. It has become clear that Fas has multiple roles in the regulation of the immune response. In the peripheral immune system, Fas/Fas ligand interactions control cell–mediated cytotoxicity, activation–induced cell death and could confer immune privilege. In the thymus, it may regulate apoptosis during negative selection in a thymocyte subset. Autoimmune diseases are often associated with deregulated Fas expression through different mechanisms: genetic defects, Fas–mediated cytoxicity or up–regulation of expression as a result of lymphocyte activation. Thus, in both the peripheral and central compartments, the Fas system controls the balance between lymphocyte life and death and failure to keep this balance may contribute to autoimmune disease.     

Agonistic antibodies to Fas induce a breach in the endothelial lining of the liver and a breakdown in B cell tolerance

Liver disease can be associated with a breakdown in self-tolerance and the production of autoantibodies such as rheumatoid factors (RF), which bind to IgG. Here we investigated whether primary, non-infectious liver damage was sufficient to induce autoantibody production. We established a model of targeted liver damage induced by weekly sublethal injections of pro-apoptotic anti-Fas (CD95) antibodies. Liver damage, monitored by measurements of serum alanine aminotransferase (ALT) and aspartate aminotransferase (AST) levels, was minimal 1 week after anti-Fas injection. However, the sublethal Fas stimulation was sufficient to trigger significant haemorrhage in the liver, as assessed by Evans Blue dye leakage into the organ 5 h after anti-Fas antibody injection. We observed an induction of RF in response to the weekly injections of sublethal anti-Fas antibodies but not of isotype control antibodies, indicating a breakdown of self-tolerance induced by Fas engagement. RF induction was unlikely to be due to direct activation of B cells, as splenocytes stimulated with anti-Fas antibodies in vitro did not produce RF. These studies show that sublethal damage to the liver by Fas engagement leads to liver haemorrhage and is sufficient to trigger the breakdown of self-tolerance.