The polypeptide encoded by the cDNA for human cell surface antigen Fas can mediate apoptosis

Oxidative stress as a mediator of apoptosis

Many agents which induce apoptosis are either oxidants or stimulators of cellular oxidative metabolism. Conversely, many inhibitors of apoptosis have antioxidant activities or enhance cellular antioxidant defenses. Mammalian cells exist in a state of oxidative siege in which survival requires an appropriate balance of oxidants and antioxidants. Thomas Buttke and Paul Sandstrom suggest that eukaryotic cells may benefit from this perilous existence by invoking oxidative stress as a common mediator of apoptosis.

T cell influence on superantigen-induced arthritis in MRL-lpr/lpr mice

OBJECTIVE

To define the influence of the T cell receptor (TCR) and the lpr autoimmune gene on the induction and progression of superantigen-induced arthritis in V beta 8 transgenic MRL-lpr/lpr mice.

METHODS

The time to onset and the extent of synovial hyperplasia after the induction of arthritis by intraarticular injection of staphylococcal enterotoxin B (SEB) were compared in mice having T cells that bear the V beta 8 transgene alone (V beta 8 TCR transgenic MRL-+/+), the lpr gene without the V beta 8 gene (nontransgenic MRL-lpr/lpr), both the V beta 8 gene and the lpr gene (V beta 8 transgenic MRL-lpr/lpr), or neither gene (nontransgenic MRL-+/+). Synovial hyperplasia was compared in SEB-injected V beta 8 transgenic MRL-lpr/lpr mice after treatment with cyclosporin A (CSA), anti-V beta 8 and anti-CD4 monoclonal antibodies, and in V beta 8 transgenic MRL-lpr/lpr mice after injection of a non-V beta 8-reactive superantigen, staphylococcal enterotoxin A (SEA).

RESULTS

At day 30, increased synovial cells were observed in all SEB-treated mice, but the increase was greatest in the V beta 8 transgenic MRL-lpr/lpr mice. T cell involvement was indicated by the inability of either heat-denatured SEB or SEA to induce severe arthritis, the reduction in the severity of the arthritis on systemic treatment with CSA or anti-V beta 8, and the correlation of synovial hyperplasia with in vitro SEB reactivity of T cells.

CONCLUSION

These observations suggest that superantigens can induce chronic arthritis and that the induction and progression of the arthritis requires an underlying T cell defect in anergy induction in addition to exposure to the superantigen.

Dicing with death: dissecting the components of the apoptosis machinery

Apoptosis, a mode of cell death commonly observed when death is a desirable or programmed event, has several characteristic structural features. These features appear to be induced by a range of gene products which, together, supervise and participate in the controlled dismantling of the cell. In this article the molecular components of the apoptotic machinery and the proteins implicated in the regulation of this mechanism of cell death are discussed.

Bcl-2 and Fas, molecules which influence apoptosis. A possible role in systemic lupus erythematosus?

Polyclonal B cell activation and the production of antibodies against a variety of autoantigens are features of systemic lupus erythematosus (SLE). Autoreactive B cells are found in healthy individuals but their numbers are probably regulated by cell death, after a few days, in the absence of proliferative stimuli. The process which achieves this regulation is known as apoptosis or programmed cell death. It has been postulated that in SLE patients dysfunction of apoptosis could result in the inappropriate longevity of autoreactive B cells, allowing autoantibody levels to reach pathogenic thresholds. This hypothesis has arisen as a result of studies revealing links between autoimmunity and two molecules which influence apoptosis. These are bcl-2 which enhances cell survival by inhibiting or delaying apoptosis and Fas, a cell surface molecule involved in the induction of apoptosis. Transgenic mice over expressing bcl-2 in their B cells showed polyclonal B cell expansion and their B cells showed extended survival in vitro. After a few months these mice developed an autoimmune syndrome resembling SLE. Mice that carry the lpr disorder have defects in the Fas gene. These mice, which do not express functional Fas molecules, suffer from an SLE-like autoimmune syndrome. Thus inappropriate expression of both bcl-2 and Fas can result in SLE-like autoimmune disease in mice. Research is now in progress to ascertain whether quantitative or functional abnormalities in these molecules exist in human SLE patients and contribute to the pathogenesis of the disease in some or all cases.

The role of neurotrophins during successive stages of sensory neuron development

Neurotrophins comprise a family of basic homodimeric proteins. The isolation of the first two neurotrophins, nerve growth factor and brain-derived neurotrophic factor, was based on the ability of these proteins to promote the survival of embryonic neurons. However, the identification of additional neurotrophins by homology screening together with recent work on these proteins has shown that neurotrophins do more than just regulate neuronal survival. Neurotrophins influence the proliferation and differentiation of neuron progenitor cells and regulate the expression of several differentiated traits of neurons throughout life. Moreover, the influence of neurotrophins on survival is more complex than originally thought; some neurons switch their survival requirements from one set of neurotrophins to another during development and several neurotrophins may be involved in regulating the survival of a population of neurons at any one time. Most of what is known of the developmental physiology of neurotrophins has come from studying neurons of the peripheral nervous system. Quite apart from the accessibility of these neurons and their progenitor cell populations, investigation of the actions of neurotrophins on several well-characterised populations of sensory neurons has permitted the age-related changes in the effects of neurotrophins to be interpreted in the appropriate developmental context. In this review I provide a chronological account of the action of neurotrophins in neuronal development with special reference to sensory neurons.

Hypothesis: cytotoxic lymphocyte granule serine proteases activate target cell endonucleases to trigger apoptosis

Upon interaction with target cells, cytotoxic T lymphocytes and natural killer cells vectorially secrete highly specialized cytoplasmic granules containing perforin and a family of serine proteases (granzymes). This granule exocytosis mechanism of cytolysis is of patho-physiological importance, and usually results in target cell DNA fragmentation. Neither perforin nor granzymes possess inherent nuclease activity, but in combination they can induce target cell apoptosis. Perforin forms transmembrane pores in the target cell, thereby enabling granzymes to access target cell substrates. The target cell substrates of granzymes are unknown, but granzyme A binding and cleavage of the nuclear shuttle protein nucleolin in target cells demonstrates that granzymes may act on nuclear substrates. Furthermore, the presence of granzyme B and other granzyme activities in the nucleus of cytotoxic lymphocytes indicates that granzymes can be transported from the cytoplasm to the nucleus. It is hypothesized that perforin enables effector granzymes to enter the target cell cytoplasm and following their transport into the nucleus, granzymes cleave specific target cell nuclear proteins to activate autolytic endonucleases that fragment DNA. In cytotoxic effectors, these nuclear substrates are normally protected from granzymes by endogenous inhibitors.

Gld and lpr mice: single gene mutant models for failed self tolerance

Mice homozygous for the gld or lpr mutations develop autoimmunity, and a lymphoproliferative disorder involving accumulation of huge numbers of unusual CD4-CD8-TCR alpha beta lo T cells. Here we review our past work with gld mice, and attempt to explain lymphoproliferation in terms of current models of T cell maturation and self-tolerance induction. The availability of molecular probes to the gene products of lpr and gld should shortly lead to a better understanding of the acquisition of self tolerance during T cell maturation and of autoimmunity.

Evolution of the IL-6/class IB cytokine receptor family in the immune and nervous systems

It has been suggested that the cytokine receptor has a structure similar to immunoglobulin and this structural similarity has raised the possibility that they have evolved from a common ancestral molecule. In the early 1970s, it was discovered that developing sympathetic neurons could switch from an adrenergic to cholinergic phenotype. The search for a diffusible factor responsible for this eventually led to the identification of leukemia inhibitory factor (LIF). Cholinergic differentiation factor (CDF)/LIF has turned out to belong to the IL-6/class IB cytokine family. In this article we further speculate on a plausible molecular pathway for the IL6/class IB receptor family in the immune and nervous systems. We think that the evolution of the IL-6/class IB receptor family may have occurred in at least two major steps. Firstly, binding subunits of an IL-6 receptor and for a CDF/LIF receptor evolved and secondly, a third binding subunit of a CNTF receptor evolved. Our evolutional consideration predicts that the binding subunits generally determine the specificity of the receptors and it is possible that novel members of the cytokine family and their receptors exist in the nervous system.

Pathogenic disorders involved in immunosuppression and T cell depletion characterizing AIDS

Four cardinal immune disorders interacting with each other may promote the progressive T cell depletion and immunosuppression characterizing AIDS. Immune activation of HIV-1 infected T4 cells leads to virus release and premature cell death. Both virus release with its resulting viral load and dead cells are the source of gp120 stimulus. Anergy of non-infected CD4 cells, resulting in cytokine dysregulation may be promoted by impairing the CD4-MHC interaction during CD4 cell activation either directly through the SLWDQ pentapeptide identity with the CD4 molecule and the CD4 binding region or through a gp120-induced autoimmune reaction to CD4. Overproduction of IFN alpha, the known antiproliferative and cytolytic cytokine may promote in a paracrine manner to neighbouring cells the immunosuppression generated by the lack of IL2 secretion following CD4 cell anergy. Apoptosis of activated non infected T cells could be induced by effector components of the autoimmune reaction (CTL, Lymphotoxins or Abs?) directed towards the 2 consensus gp120 sequence identity/similarity (INCTR and FYCNST) shared with the APO/Fas molecule. These two sequences are known as immunodominant sites of the gp120. Furthermore, IFN alpha overproduction may also render circulating memory T cells competent to apoptosis by upregulating the cascade of metabolic events leading to programmed cell death.

Analyses of lpr-GVHD by adoptive transfer experiments using MRL/lpr-Thy-1.1 congenic mice

When MRL/Mp- +/+ (MRL/+) mice are lethally irradiated and then reconstituted with MRL/Mp-lpr/lpr (MRL/lpr) spleen and/or bone marrow cells (BMCs), the mice develop a graft-versus-host disease (GVHD)-like syndrome which is known as lpr-GVHD. We analyzed lpr-GVHD by adoptive transfer experiments using congenic MRL/lpr-Thy-1.1 mice to distinguish the donor and recipient cells. MRL/+ mice were lethally (9.5 Gy) irradiated and then reconstituted with BMCs of MRL/lpr-Thy-1.1 mice treated with anti-Thy-1.1 monoclonal antibody (mAb) plus complement (C). The mice were sacrificed 5 to 6 weeks after bone marrow transplantation (BMT), and the spleen cells were transferred to second recipients. The second recipients (MRL/+ or MRL/lpr mice) were non-irradiated, sublethally (6 Gy) irradiated or lethally (9.5 Gy) irradiated. The lethally irradiated mice were also injected with syngeneic BMCs treated with anti-Thy-1.2 mAb plus C. When whole spleen cells (1 x 10(8) were injected into lethally irradiated MRL/+ mice, the mice showed short survival (1.2-1.5 months) and severe histological changes in the spleen (atrophy and fibrosis), liver (lymphoid infiltration in the Glisson's sheath) and lung (lymphoid infiltration around the bronchus and vessel). The sublethally irradiated MRL/+ mice at 2 months after transfer showed histological changes similar to the lethally irradiated MRL/+ recipients, although the former survived more than 3 months, suggesting that histological changes do not reflect on mortality. These GVH-like diseases were not transferable to MRL/lpr mice; they developed autoimmune diseases.(ABSTRACT TRUNCATED AT 250 WORDS)

Molecular cloning and expression of the Fas ligand, a novel member of the tumor necrosis factor family

The Fas antigen (Fas) belongs to the tumor necrosis factor (TNF)/nerve growth factor receptor family, and it mediates apoptosis. Using a soluble form of mouse Fas, prepared by fusion with human immunoglobulin Fc, Fas ligand was detected on the cell surface of a cytotoxic T cell hybridoma, PC60-d10S. A cell population that highly expresses Fas ligand was sorted using a fluorescence-activated cell sorter, and its cDNA was isolated from the sorted cells by expression cloning. The amino acid sequence indicated that Fas ligand is a type II transmembrane protein that belongs to the TNF family. The recombinant Fas ligand expressed in COS cells induced apoptosis in Fas-expressing target cells. Northern hybridization revealed that Fas ligand is expressed in activated splenocytes and thymocytes, consistent with its involvement in T cell-mediated cytotoxicity and in several nonlymphoid tissues, such as testis.

A receptor induced by lymphocyte activation (ILA): a new member of the human nerve-growth-factor/tumor-necrosis-factor receptor family

A 1.4-kb full-length cDNA was isolated from a library constructed from activated human T-cell leukemia virus type 1-transformed human T-lymphocytes. Sequence analysis identified this cDNA as a new member of the human nerve-growth-factor receptor/tumor-necrosis-factor receptor family and as the potential human homologue of the murine sequence, 4-1BB. The gene encodes three cysteine-rich motifs in the extracellular domain which are characteristic of this receptor family, a transmembrane region and a short N-terminal cytoplasmic portion which contains potential phosphorylation sites.

Fas transduces activation signals in normal human T lymphocytes

The Fas gene encodes a cell surface molecule that is a member of the the nerve growth factor/tumor necrosis factor receptor family of proteins and can mediate programmed cell death (apoptosis) in certain transformed cell lines. To characterize further the biological function of Fas, particularly with regard to its function in normal cells, a panel of monoclonal antibodies (mAbs) was generated against the extracellular portion of human Fas. Some of these mAbs induced apoptosis in transformed cell lines expressing Fas, but only when immobilized on the culture vessel. One of the new Fas mAbs (M38) was used for studies on normal lymphoid cells and found to stimulate the proliferation of purified human T cells and thymocytes when immobilized on culture wells along with CD3 antibody. T cell proliferation induced by Fas mAb was largely interleukin 2 independent and was demonstrated to be due to a direct effect on the precursor T cell. Thus, the data demonstrate that in addition to a role in the induction of apoptosis in certain transformed cell lines, the Fas protein may also play an important role in the activation and proliferation of normal T cells.

T-cell tolerance

As the consequences of autoimmunity are so damaging to an individual, both deletional and non-deletional forms of T-cell tolerance are observed in the thymus as well as the periphery. Although the relationship between these types of tolerance is not clear, recent studies in vivo and in vitro have begun to identify the cellular and molecular interactions involved. Whereas thymic development must account for both positive and negative selection, it is now apparent that T-cell responses in the periphery must also strike a balance between the generation of effector function and activation-induced tolerance.

Promotion and prevention of autoimmunity by B lymphocytes

B lymphocytes are normally subject to heavy and ongoing selection through their antigen-specific Ig receptors. Self tolerance mediated through antigen-receptor crosslinking on B cells appears to function in a variety of different and perhaps complementary ways, leading to cell death or editing of the antigen-receptor genes. The consequences of defects in these processes are unclear, but may be sufficient to explain systemic autoimmune disease.

Programmed cell death, apoptosis and killer genes

A cursory examination of the literature reveals that the study of programmed cell death and apoptosis is increasing exponentially. Most contributors to this field have come either from developmental biology or immunology and view programmed cell death from different perspectives, leading both to confusion and an inability to fully appreciate the literature from other disciplines. Here, Lawrence Schwartz and Barbara Osborne define the terms and ideas relevant to the study of cell death in a way that will be accessible to investigators from all fields.

Expression of a Pim-1 transgene accelerates lymphoproliferation and inhibits apoptosis in lpr/lpr mice

Transgenic mice expressing the Pim-1 kinase are predisposed to develop T-cell lymphomas with a long latency period of about 7-9 months. However, the exact functional basis of the oncogenic activity of Pim-1 remains obscure. C57BL/6 mice homozygous for the lpr mutation develop a well-described lymphoproliferative syndrome at about 26-30 weeks of age. This syndrome is characterized mainly by the accumulation of abnormal T cells in lymph nodes because of the lack of Fas receptor-induced apoptosis. We find that backcross of E mu-Pim-1 transgenics (mice with a transgene that carries the mouse Pim-1 gene under the transcriptional control of the immunoglobulin heavy chain gene enhancer E mu) into lpr/lpr mice results in strong acceleration of lymphoproliferation and dramatic enlargement of lymph nodes. In addition, we show here that cultured lymph node cells from E mu-Pim-1 lpr/lpr mice are rescued from rapid apoptosis that normally occurs in nontransgenic lpr cells in vitro. We also present evidence that CD4+/CD8+ double-positive thymocytes from lpr/lpr mice are sensitive to dexamethasone-induced apoptosis, although lpr/lpr mice lack the Fas receptor. In contrast, E mu-Pim-1 lpr/lpr animals show considerable protection from dexamethasone-induced apoptosis. These results show that Pim-1 can strongly accelerate lymphoproliferation through inhibition of apoptosis and thereby provide first insight into the functional basis for the oncogenic activity of Pim-1.

Thromboxane A2 receptor is highly expressed in mouse immature thymocytes and mediates DNA fragmentation and apoptosis

We have recently revealed that the thymus is the organ showing the highest expression of thromboxane (TX) A2 receptor in mice. In this study, thymic cell populations expressing the receptor were identified, and the effects of a TXA2 agonist on these cells were examined. Radioligand binding using a TXA2 receptor-specific radioligand revealed a single class of binding sites in the thymocytes with an affinity and specificity identical to those reported for the TXA2 receptor. The receptor density in these cells was comparable to that seen in blood platelets. This receptor is most highly expressed in CD4-8- and CD4+8+ immature thymocytes, followed by CD4+8- and CD4-8+ cells. The receptor density in splenic T cells was less than one fifth of that in CD4+8+ cells and no binding activity was detectable in splenic B cells. The addition of a TXA2 agonist, STA2, to thymocytes induced the disappearance of the CD4+8+ cells in a time- and concentration-dependent manner and caused DNA fragmentation. These changes were blocked by a specific TXA2 antagonist, S-145. These results demonstrate that TXA2 induces apoptotic cell death in immature thymocytes by acting on the TXA2 receptor on their cell surface and suggest a role for the TXA2/TXA2 receptor system in the thymic micro-environment.

The Fas protein is expressed at high levels on CD4+CD8+ thymocytes and activated mature lymphocytes in normal mice but not in the lupus-prone strain, MRL lpr/lpr

The lymphoproliferation (lpr) mutation in the MRL strain of mice is caused by the insertion of the early transposable element ETn in the Fas gene. The insertion causes a striking decrease in Fas mRNA expression and is associated clinically with marked acceleration of the lupus-like disease. To further explore the role of the Fas protein in T-cell selection in the thymus and tolerance in the peripheral immune system, we produced a monospecific polyclonal anti-murine Fas antibody that binds to a polymorphic region of the protein. Fas protein expression was detected on approximately 90% of BALB/c and MRL +/+ thymocytes, and the expression was highest on CD4+CD8+ thymocytes, the stage at which most thymocytes die by apoptosis. In contrast to the high level of expression of Fas on thymocytes, Fas was detected on < 10% of normal splenic T cells. After activation of splenic T cells with Con A or anti-CD3 and interleukin 2, Fas expression increased approximately 10-fold. Fas expression on splenic B cells was also markedly up-regulated after activation with lipopolysaccharide or anti-mu antibodies. The Fas protein was not detected on resting or activated lymphocytes obtained from MRL lpr/lpr mice. Together, these findings suggest that Fas plays a role in both thymic selection and T-cell survival in the periphery and that the accelerated autoimmunity in MRL lpr/lpr mice results from a defect in both of these pathways.

Frequent occurrence of in vivo clonal expansion of CD4- CD8- T cells bearing T cell receptor alpha beta chains in adult humans

We have previously reported 2 cases of healthy men showing in vivo monoclonal expansion of mature CD4- CD8- alpha beta 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 T cell receptor beta 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- alpha beta T cells frequently occurs in the periphery without any T cell abnormalities.

p75-deficient trigeminal sensory neurons have an altered response to NGF but not to other neurotrophins

The role of the common low affinity neurotrophin receptor, p75, is controversial. Studies using cell lines suggest that p75 is either essential or dispensable for neurotrophin responsiveness. To resolve this issue, we studied the survival response of developing neurons obtained from normal mouse embryos and embryos with a null mutation in the p75 gene. Embryonic cranial sensory and sympathetic neurons from mutant embryos responded normally to NGF, BDNF, NT-3, and NT-4/5 at saturating concentrations. Dose responses of sympathetic and visceral sensory neurons from mutant embryos were also normal. In contrast, embryonic cutaneous sensory trigeminal neurons isolated from mutant embryos displayed a consistent displacement in the NGF dose response. Compared with wild-type neurons, the concentration of NGF that promoted half-maximal survival was 3- to 4-fold higher for neurons from homozygous embryos and was 2-fold higher for neurons from heterozygous embryos. These findings indicate that p75 enhances the sensitivity of NGF-dependent cutaneous sensory neurons to NGF and may explain, at least in part, the cutaneous sensory abnormalities of mice homozygous for the p75 mutation.

Bromodeoxyuridine-labelled apoptosis after treatment with antimetabolites in two murine tumours and in small intestinal crypts

Antimetabolites are S-phase specific anticancer drugs. Administration of bromodeoxyuridine (BrdUrd) to tumour bearing mice was followed by treatment with cytosine arabinoside or hydroxyurea. Anti-BrdUrd immunocytochemistry visualised susceptible tumour and intestinal crypt cells at electron microscope level, showing unequivocally that cells that were in S-phase at the time of administration of the drugs subsequently died by apoptosis.

Molecular cloning of a ligand for the inducible T cell gene 4-1BB: a member of an emerging family of cytokines with homology to tumor necrosis factor

4-1BB is an inducible T cell antigen that shows sequence homology to members of an emerging family of cytokine receptors, including those for tumor necrosis factor and nerve growth factor. To aid in the analysis of the function of 4-1BB we have utilized a soluble form of the molecule as a probe to identify and clone the gene which encodes its ligand. The ligand for 4-1BB is a type II membrane glycoprotein that has homology to tumor necrosis factor, lymphotoxin, and the ligands for CD40 and CD27, all of which are themselves ligands to receptors in this superfamily. The gene for 4-1BB is on mouse chromosome 4 and maps close to the p80 form of the tumor necrosis factor receptor as well as the gene for CD30. The gene for 4-1BB ligand maps to mouse chromosome 17, but considerably distal to the tumor necrosis factor and lymphotoxin genes. Interaction of 4-1BB with its ligand induces the proliferation of activated thymocytes and splenic T cells, a response which is mimicked on similar cell populations stimulated with an antibody to 4-1BB.

Cytokines in malignant lymphomas: review and prospective evaluation

Cytokines play important roles in the pathogenesis of lymphomas. Cytokines either can be produced or exert effects on neoplastic or reactive cells. The secretion of cytokines can provide growth advantages for tumor cells in either an autocrine or a paracrine fashion. An elevated serum or tissue level of cytokines can contribute to the clinical and histopathologic alterations associated with malignant lymphomas. The effects of cytokines on the histopathologic changes are most noticeable in Hodgkin's disease (HD). The malignant (Hodgkin's-Reed-Sternberg) cells in HD have been shown to secrete interleukin-1 (IL-1), IL-5, IL-6, IL-9, tumor necrosis factor-alpha, macrophage colony-stimulating factor, transforming growth factor-beta, and, less frequently, IL-4 and granulocyte colony-stimulating factor. These cytokines may be responsible for the increased cellular reaction and fibrosis observed in tissues involved by HD and for the immunosuppression in patients with HD. In contrast to Hodgkin's-Reed-Sternberg cells, most non-HD lymphoma cells do not produce cytokines in excess amounts. Exceptions include T-cell-rich B-cell lymphoma (IL-4), angioimmunoblastic lymphadenopathy-like T-cell lymphoma with plasmacytosis and hypergammaglobulinemia (IL-6), anaplastic large-cell lymphoma (IL-9), polymorphic immunocytoma (IL-6), and immunoblastic lymphoma (IBL) (IL-6). Some cytokines are involved in the unique cellular reactions in each of these types of lymphoma. For example, IL-4 is responsible for the T-cell reaction in T-cell-rich B-cell lymphoma, while IL-6 is accountable for the plasma cell reaction in angioimmunoblastic lymphadenopathy-type T-cell lymphoma. Others may be directly involved in the tumor cell growth or differentiation. For instance, IL-9 may be important for the autocrine proliferation of anaplastic large cell lymphoma, whereas IL-6 is essential for plasmacytoid differentiation in polymorphic immunocytoma. Further studies of the roles of cytokines in lymphomas may lead to major advances in the understanding of the molecular processes involved in the histopathogenesis of malignant lymphomas. Elucidation of the autocrine or paracrine function of cytokines also may lead to new approaches to a rational intervention in these disease processes.

Cyclosporin A and FK506: molecular mechanisms of immunosuppression and probes for transplantation biology

The microbial products cyclosporin A (CsA), FK506 and rapamycin are potent immunosuppressive agents. The introduction of CsA in the early 1970's significantly improved the outcome of organ and bone marrow allograft transplantation and advanced therapeutic options in autoimmune diseases. FK506 appears to have a higher therapeutic index than CsA, and has been used with encouraging results in clinical transplantation trials. FK506 and CsA, although structurally unrelated, appear to target similar signal transduction pathways in hematopoietic cells by inhibiting the action of calcineurin, a serine/threonine phosphatase. A structural analog of FK506, rapamycin, inhibits cellular function by a different molecular mechanism. These agents have advanced our understanding of signal transmission pathways in lymphocyte activation.

A novel domain within the 55 kd TNF receptor signals cell death

Deletion mutagenesis of the intracellular region of the 55 kd TNF receptor (TNF-R1) identified an approximately 80 amino acid domain near the C-terminus responsible for signaling cytotoxicity. This domain shows weak homology with the intracellular domain of Fas antigen, a transmembrane polypeptide that can also initiate a signal for cytotoxicity. Alanine-scanning mutagenesis of TNF-R1 confirmed that many of the amino acids conserved with Fas antigen are critical for the cytotoxic signal. This region of TNF-R1-Fas homology is therefore likely to define a novel domain (death domain) that signals programmed cell death. Mutations within the death domain of TNF-R1 also disrupted its ability to signal anti-viral activity and nitric oxide (NO) synthase induction. In addition, large deletions in the membrane-proximal half of the intracellular domain did not block signaling of cytotoxicity or anti-viral activity but did block induction of NO synthase.

Autoimmune gld mutation uncouples suicide and cytokine/proliferation pathways in activated, mature T cells

Antigen receptor-directed suicide plays an important role in the elimination of potentially autoaggressive immature T cells during thymic differentiation. Here we demonstrated evidence for a second pathway of receptor-directed suicide in mature T cells that is missing in a mutant strain (gld) of mice with an "autoimmune" lymphoproliferative syndrome. The defect is evident within the gld activated T cell and does not require the presence of an antigen-presenting cell for its expression. Receptor-driven suicide is intact in immature T cells of animals with this mutation. These results support the significance of receptor-directed suicide in the mature T cell compartment and suggest that the immune system may use three independent pathways for regulating programmed cell death in shaping and controlling the immune response.

Lethal effect of the anti-Fas antibody in mice

During mammalian development, many cells are programmed to die most mediated by apoptosis. The Fas antigen coded by the structural gene for mouse lymphoproliferation mutation (lpr), is a cell surface protein belonging to the tumour necrosis factor/nerve growth factor receptor family, and mediates apoptosis. The Fas antigen messenger RNA is expressed in the thymus, liver, heart, lung and ovary. We prepared a monoclonal antibody against mouse Fas antigen, which immunoprecipitated the antigen (M(r) 45K) and had cytolytic activity against cell lines expressing mouse Fas antigen. We report here that staining of mouse thymocytes with the antibody indicated that thymocytes from the wild-type and lprcg mice expressed the Fas antigen, whereas little expression of the Fas antigen was found in lpr mice. Intraperitoneal administration of the anti-Fas antibody into mice rapidly killed the wild-type mice but neither lpr nor lprcg mice. Biochemical, histological and electron microscope analyses indicated severe damage of the liver by apoptosis. These findings suggest that the Fas antigen is important in programmed cell death in the liver, and may be involved in fulminant hepatitis in some cases.

Macrophages are required for cell death and tissue remodeling in the developing mouse eye

To identify and characterize tissue remodeling processes mediated by macrophages, we have generated transgenic mice in which diphtheria toxin is expressed from a macrophage-specific transgene. Expression of the transgene disrupts subsets of mature macrophages in both the eye and the peritoneal cavity and results in the persistence of two normally transient ocular tissues, the hyaloid vasculature and the pupillary membrane. Furthermore, the cells comprising the pupillary membrane appear alive up to 14 days after the structure is normally remodeled, suggesting that the macrophage actively elicits target cell death. Thus, these transgenic mice provide direct evidence for the active involvement of macrophages in developmentally programmed tissue remodeling and identify the hyaloid vessels and the pupillary membrane in the eye as targets of macrophage-mediated remodeling.

The release of soluble p55 TNF receptor from U937 cells studied by a new p55 immunoassay

A highly specific and sensitive immunoassay for soluble p55 tumor necrosis factor receptor (TNFR) has been established. The immunoassay was based on a newly developed monoclonal antibody (IV4E) recognizing a non-TNF-binding site of the p55 TNFR. The IV4E antibody immunoprecipitated a 55 kDa TNF binding protein from HL-60 cells. No binding of IV4E to the p75 TNFR could be detected. Bound TNFR to IV4E was detected with digoxigenin (DIG) labeled TNF. This assay could detect down to 300 pg/ml of soluble p55, which represents an 8-10-fold increase in sensitivity compared to earlier developed immunoassays. The assay was specific for soluble p55 TNFR present in serum and cell culture supernatants, since addition of excess unlabeled TNF together with DIG labeled TNF inhibited the signal. TNF concentrations up to 10 ng/ml in the TNFR sample did not affect the assay, indicating that TNFRs can be measured in samples containing TNF. The new immunoassay was used to study the mechanisms underlying the release of soluble p55 TNFR from U937 cells stimulated with TPA. The TPA induced release of soluble p55 TNFR from U937 cells occurred in two phases. First, a rapid increase of soluble p55 was observed after the addition of TPA. Later, the release of p55 occurred at a slower rate, and this release was inhibited by known inhibitors of protein synthesis and intracellular transport. Addition of TPA increased the p55 mRNA expression in U937 cells. The results suggest that TPA induces both release and new synthesis of p55 in U937 cells.

Establishment of apoptosis-inducing monoclonal antibody 2D1 and 2D1-resistant variants of human T cell lines

A monoclonal antibody (mAb), 2D1(IgM), was identified for its anti-proliferative effect on human T leukemia cell line, SUP-T13. The cells bound with 2D1 showed DNA ladder patterns of oligonucleosomes, demonstrating apoptosis. Peripheral mononuclear cells activated by phytohemagglutinin or OKT3 induced expression of 2D1 antigen and were growth-inhibited by the antibodies. Among the cell lines tested, T cell lines tended to be growth-inhibited by the antibodies. Epstein-Barr virus-transformed B cells were reactive with 2D1, but were not growth-inhibited by the antibodies. We established stable 2D1-resistant variants LAC2D1R and JKT2D1R from the original SUP-T13 and Jurkat T cell lines, respectively. These variant cells demonstrated phenotypes identical to the original cells, including reactivity to 2D1 and expression of cytoplasmic Bc1-2 protein. The 2D1-resistant cells were as sensitive as the original cells to the other apoptosis-inducing stimuli, such as gamma-irradiation or calcium ionophore A23187. However, the 2D1-resistant variants were also insensitive to anti-Fas, another apoptosis-inducing mAb. Binding of 2D1 was blocked by anti-Fas mAb, suggesting that 2D1 reacts with an epitope of human Fas molecules. The present results demonstrate that a 2D1-reactive, but not 2D1-sensitive, population may exist in highly 2D1-sensitive human leukemia T cells and that pairs of 2D1-sensitive and 2D1-resistant cells are useful in the biochemical analysis of Fas-mediated apoptosis in human T cells.

Induction of apoptosis by the low-affinity NGF receptor

Nerve growth factor (NGF) binding to cellular receptors is required for the survival of some neural cells. In contrast to TrkA, the high-affinity NGF receptor that transduces NGF signals for survival and differentiation, the function of the low-affinity NGF receptor, p75NGFR, remains uncertain. Expression of p75NGFR induced neural cell death constitutively when p75NGFR was unbound; binding by NGF or monoclonal antibody, however, inhibited cell death induced by p75NGFR. Thus, expression of p75NGFR may explain the dependence of some neural cells on NGF for survival. These findings also suggest that p75NGFR has some functional similarities to other members of a superfamily of receptors that include tumor necrosis factor receptors, Fas (Apo-1), and CD40.

CD30 antigen, a marker for Hodgkin's lymphoma, is a receptor whose ligand defines an emerging family of cytokines with homology to TNF

CD30 is a surface marker for neoplastic cells of Hodgkin's lymphoma and shows sequence homology to members of the tumor necrosis factor (TNF) receptor superfamily. Using a chimeric probe consisting of the extracellular domain of CD30 fused to truncated immunoglobulin heavy chains, we expression cloned the cDNA cognate from the murine T cell clone 7B9. The encoded protein is a 239 amino acid type II membrane protein whose C-terminal domain shows significant homology to TNF alpha, TNF beta, and the CD40L. Cross-hybridization to an induced peripheral blood T cell cDNA library yielded the human homolog, which is 72% identical at the amino acid level. The recombinant human ligand enhances the proliferation of CD3-activated T cells yet induces differential responses, including cell death, in several CD30+ lymphoma-derived clones. The human and murine genes map to 9q33 and the proximal region of chromosome 4, respectively.

Activation with superantigens induces programmed death in antigen-primed CD4+ class II+ major histocompatibility complex T lymphocytes via a CD11a/CD18-dependent mechanism

Staphylococcal enterotoxin superantigens (SAg) bind class II major histocompatibility complex (MHC) molecules on antigen-presenting cells (APC) and upon cell-to-cell contact stimulate proliferation of T cells expressing appropriate V beta gene products. In addition, SAg can also deliver negative signals to Ag-specific T cells resulting in a state of unresponsiveness or a loss of viability. The present study examines the functional consequences of a direct interaction of SAg with alloAg-specific class II MHC+ CD4+ T cell lines (TCL). Our results demonstrate that SAg induce programmed death (apoptosis) in a majority of Ag-specific CD4+ T cells accompanied by genomic DNA fragmentation. SAg binding to Ag-specific TCL resulted in a rapid mobilization of intracellular free calcium ([Ca2+]i) and transcription of a number of cytokine genes including interleukin-2(IL-2), IL-4, interferon-gamma (IFN-gamma), granulocyte-macrophage colony-stimulating factor (GM-CSF), and granzyme B indicating the activation of primed T cells. Both SAg-induced cytokine gene expression as well as subsequent death were significantly inhibited by a tyrosine kinase inhibitor herbimycin A and also by cyclosporin A. SAg-induced death of primed T cells was also inhibited by monoclonal antibodies (mAb) directed at the CD11a/CD18 molecule but not those reactive with other T cell surface molecules such as CD2, CD7, CD28, CD29 or CD49d. None of these mAb, including anti-CD11a/CD18, had any effect on SAg-induced expression of IL-2 and IL-4 genes or SAg-induced [Ca2+]i response. Addition of cytokines such as IL-1 alpha, IL-2, IL-4, IL-6, GM-CSF, IFN-gamma, tumor necrosis factor (TNF-alpha, or TNF-beta), or neutralizing Ab to these cytokines had no effect on SAg-induced death of Ag-specific TCL. The T cells which survived the death-inducing effects of SAg showed down-regulation of the CD3/T cell receptor and up-regulation of CD2 and HLA-DR expression, and upon re-exposure to the same SAg upregulated expression of mRNA for IL-2 and IFN-gamma. Presentation of SAg by B7+ ICAM-1+ LFA-3+ DR+ professional APC was also able to induce the death of Ag-specific TCL. Together these results suggest that the activation with SAg causes programmed death of Ag-specific TCL cells via a mechanism that requires late participation of the CD11a/CD18 molecule.

Molecular mimicry between HIV-1 and antigen receptor molecules: a clue to the pathogenesis of AIDS

There is increasing evidence that autoimmune phenomena play an important role in the immunopathogenesis of AIDS. We found a high degree of sequence homology between HIV-1 and antigen receptor molecules, immunoglobulins and T cell receptors. Based on recent findings that the appearance of anti-Fab autoantibodies and attachment of gp120/immunoglobulin/complement complexes on CD4+ T cells are associated with the decrease of CD4+ T cells in HIV-infected patients, we hypothesize herein that cross-reactive anti-F (ab')2 autoantibodies and circulating gp120 molecules are responsible for a destabilization of the immune network and the elimination of CD4+ T cells.

T cell repertoire and autoimmune diseases

Self-reactivity and autoimmunity are processes related to the breakage of self-tolerance that can be distinguished by their different clinical outcome and are widely accepted cornerstones of immunology. The finding that several potentially autoaggressive cells contribute to the repertoire of healthy individuals has stimulated a great deal of experimental work aimed at understanding the mechanisms that prevent autoimmune pathology. In this review we will consider the basic principles, and our present knowledge of the rules that preside over the interplay of the immune system with self-components. One viewpoint stresses the importance of major histocompatibility complex (MHC) and non-MHC genes in determining genetic predisposition to develop autoimmune phenomena. At a different level there is a strong interest in understanding the mechanisms of processing and presentation of self antigens, especially during ontogeny. Another topic of major interest concerns the interaction between MHC genes and the T cell receptor (TcR) complex as well as the identification of TcR V genes that are preferentially expressed by autoimmune T cells. All of these aspects are evaluated in the context of tolerance based on deletion and anergy. Finally we will propose a general model of autoimmunity based on the most recent findings concerning the biological activity of exogenous superantigens.

Signaling for death of lymphoid cells

The induction of programmed cell death in lymphocytes is a common response to a wide variety of physiological and pharmacological stimuli. While there is still much to be learned about the transmembrane signals that lead to programmed cell death, progress has been made in identifying new cell surface molecules (e.g. APO-1/Fas) that may regulate the physiological induction of lymphocyte death, molecules whose expression inhibits apoptosis (e.g. Bcl-2), and the antagonism of activation-induced cell death in T-cell hybridomas and thymocytes by members of the steroid receptor superfamily.

Non-antigen signals for B-cell growth and differentiation to antibody secretion

Recently, significant progress had been made in understanding the T-B lymphocyte interactions that control humoral immunity. This review highlights experiments that demonstrate a central role for interactions between T-cell-B-cell-activating molecule (CD40 ligand) expressed on T cells and CD40 on B cells in B-cell activation and immunoglobulin isotype switching, both in vitro and in vivo.

Analyses of origin of synovial cells and repairing mechanisms of arthritis by allogeneic bone marrow transplantation

MRL/lpr mice spontaneously develop rheumatoid arthritis (RA)-like disease. Recently we have observed that bone marrow transplantation (BMT) with bone graft to recruit donor stromal cells can be used to treat autoimmune diseases (including RA-like lesions) in MRL/lpr mice. In this paper, we characterize the origin of synovial cells with the use of radiation chimeras and elucidate the repairing mechanism of RA by BMT. Type A synoviocytes have been thought to play an important role in the initiation of inflamed synovia, since a large number of Type A synoviocytes have been seen in inflamed synovia of both RA patients and MRL/lpr mice. Using [C57BL/6JJic-bg-->MRL/lpr] chimeric mice, we found Type A synoviocytes to be derived from donor bone marrow cells. They appeared in the inflamed synovia 4 weeks after BMT. However, at this time, the repairing process was not prominent. Serial biopsy studies revealed that newly developed T cells with normal functions play a more crucial role in the treatment of RA in MRL/lpr mice than do Type A synoviocytes.

Identifying strategies for immune intervention

In recent years the molecular basis of antigen recognition by T cells has been unraveled and the various pathways that control T cell activation and functional specialization have been defined. Consequently, it is now possible to delineate various strategies for intervention with the immune system to design protective vaccines, to induce an effective response to tumor antigens, and to control graft rejection and autoimmune diseases.