Differential roles of osteopontin/Eta-1 in early and late lpr disease.

The cytokine osteopontin (Eta-1) leads to macrophage-dependent polyclonal B-cell activation and is induced early in autoimmune prone mice with the lpr mutation, suggesting a significant pathogenic role for this molecule. Indeed, C57BL/6-Fas(lpr/lpr) mice crossed with osteopontin(-/-) mice display delayed onset of polyclonal B-cell activation, as judged by serum immunoglobulin levels. In contrast, they are subject to normal onset, but late exacerbation of lymphoproliferation and evidence of kidney disease. These observations define two stages of Fas(lpr/lpr) disease with respect to osteopontin-dependent pathogenesis that should be taken into account in the design of therapeutic approaches to the clinical disease.

Effect of Fas and Fas ligand deficiency in resistance of C57BL/6 mice to HSV-1 keratitis and chorioretinitis.

PURPOSE: To investigate the effect of Fas and Fas ligand (FasL) deficiency on the development of herpes stromal keratitis and on the von Szily model of herpes retinitis in C57BL/6 mice, which are ordinarily resistant to development of both of these herpetic diseases. METHODS: Anterior chamber inoculation of the right eye of each mouse with various titers of HSV-1 (KOS strain) was performed. Both eyes of each mouse were enucleated on postinoculation day 15 and processed for histopathologic examination. HSV-1 was inoculated into one cornea of other mice, and the severity of stromal keratitis was scored. RESULTS: Contralateral destructive chorioretinitis developed in susceptible Balb/cByj mice (19/23); ipsilateral chorioretinitis did not occur (0/23). Stromal keratitis developed in susceptible C.AL-20 mice (15/16). None of the C57BL/6 (0/10 for keratitis or 0/20 for retinitis) developed inflammation. Neither did B6.SMN.C3H.gld (FasL deficient; 0/12 or 0/28) or B6.MRL.lpr (Fas deficient; 0/11 or 0/34) mice (keratitis or contralateral chorioretinitis). Minimal scattering of inflammatory cells in the contralateral retina but not destructive chorioretinitis was observed in two C57BL/6, three B6.SMN.C3H.gld, and five B6.MRL.lpr mice. Few inflammatory cells were also found in the ipsilateral vitreous and vitreoretinal interface (but not destructive chorioretinitis) of all C57BL/6, two gld, and three lpr mice. CONCLUSIONS: Immune dysregulation secondary to deficiency in Fas or FasL system does not influence the resistance of the C57BL/6 mice to develop herpes simplex keratitis or destructive herpes simplex chorioretinitis.

Costimulation by extracellular matrix proteins determines the response to TCR ligation.

Although ligation of the T-cell antigen receptor (TCR) is central to the responsiveness and antigen specificity of T-cells, it is insufficient to elicit a response. To determine whether the need for costimulation reflects inadequate strength of signal transduction through the TCR or an absolute block of signaling in the absence of a coligand, we studied T-cell activation under serum-free conditions eliminating costimulation by various extracellular matrix proteins which otherwise have an omnipresent and frequently overlooked effect. Engagement of the TCR leads to induction of Fas, but not to measurable IL-2 secretion or apoptosis. Those activation parameters are induced by costimulation through integrin alphaVbeta3. Furthermore, T-cell survival or elimination is determined by the type of ligand binding to this coreceptor with vitronectin, fibronectin, and fibrinogen efficiently inducing apoptosis and IL-2 production while osteopontin and entactin mediate IL-2 secretion comparably without causing programmed cell death. Consistent with the cytokine properties of these ligands, differential costimulation depends on their presentation in soluble rather than immobilized form. The determination of elimination versus survival of activated T-cells by coligation of beta3-integrins may have bearing on the fundamental postthymic mechanisms that shape the T-cell repertoire.

Analysis of the relationship between viral infection and autoimmune disease.

The clinical association between viral infection and onset or exacerbation of autoimmune disorders remains poorly understood. Here, we examine the relative roles of molecular mimicry and nonspecific inflammatory stimuli in progression from infection to autoimmune disease. Murine herpes virus 1 (HSV-1 KOS) infection triggers T cell-dependent autoimmune reactions to corneal tissue. We generated an HSV-1 KOS point mutant containing a single amino acid exchange within the putative mimicry epitope as well as mice expressing a TCR transgene specific for the self-peptide mimic to allow dissection of two pathogenic mechanisms in disease induction. These experiments indicate that viral mimicry is essential for disease induction after low-level viral infection of animals containing limited numbers of autoreactive T cells, while innate immune mechanisms become sufficient to provoke disease in animals containing relatively high numbers of autoreactive T cells.

Differential cytokine requirements for regulation of autoimmune gastritis and colitis by CD4(+)CD25(+) T cells.

Murine autoimmune gastritis, induced by neonatal thymectomy or the injection of CD25-depleted lymphocytes into nu/nu recipients, is characterized by an inflammatory infiltrate into the gastric mucosa, parietal cell destruction and circulating anti-parietal cell antibodies. Using RAG-2(-/-)mice as recipients, we determined that the induction of disease relies on CD4(+)CD25(-)effector cells and prevention relies on CD4(+)CD25(+)regulatory cells; neither requires participation of CD8 cells or B cells. The severity of gastritis was dependent on the cytokine repertoire of CD4(+)CD25(-)effector T cells. Recipients of IL-4(-/-)T cells developed more severe gastritis and recipients of INF-gamma(-/-)T cells developed milder disease than recipients of wildtype or IL-10(-/-)effector T cells. Gastritis did not develop in the absence of IL-12. Protection from gastritis does not require either IL-4 or IL-10 because CD4(+)CD25(+)cells from IL-4(-/-)or IL-10(-/-)mice completely abrogated the disease process. CD4(+)CD25(+)cells also protected RAG-2(-/-)recipients from colitis and inhibitory activity was partially dependent on IL-10 expression. These findings highlight the critical role of CD4(+)CD25(+)regulatory T cells in protection from several autoimmune syndromes and delineate the differential contribution of IL-10 to CD4(+)CD25(+)Treg activity in the settings of gastritis and colitis.

Definition of a novel binding site on CD8 cells for a conserved region of the MHC class Ib molecule Qa-1 that regulates IFN-gamma expression.

Natural killer (NK) cells and activated CD8 cells both express cytotoxic activity and produce substantial levels of IFN-gamma in response to viral and bacterial infections. In the case of NK cells, cellular activation and IFN-gamma expression are regulated by an interaction between NK receptors and MHC class Ib molecules, including HLA-E/Qa-1. We have used soluble tetrameric complexes of the murine class Ib molecule Qa-1 to define the significance of this interaction for CD8 cells. We find that all CD8 cells express a receptor for Qa-1 and that ligation of this receptor by Qa-1 results in up-regulation of IFN-gamma production.

Eta-1 (osteopontin): an early component of type-1 (cell-mediated) immunity.

Cell-mediated (type-1) immunity is necessary for immune protection against most intracellular pathogens and, when excessive, can mediate organ-specific autoimmune destruction. Mice deficient in Eta-1 (also called osteopontin) gene expression have severely impaired type-1 immunity to viral infection [herpes simplex virus-type 1 (KOS strain)] and bacterial infection (Listeria monocytogenes) and do not develop sarcoid-type granulomas. Interleukin-12 (IL-12) and interferon-gamma production is diminished, and IL-10 production is increased. A phosphorylation-dependent interaction between the amino-terminal portion of Eta-1 and its integrin receptor stimulated IL-12 expression, whereas a phosphorylation-independent interaction with CD44 inhibited IL-10 expression. These findings identify Eta-1 as a key cytokine that sets the stage for efficient type-1 immune responses through differential regulation of macrophage IL-12 and IL-10 cytokine expression.

Inactivation of misselected CD8 T cells by CD8 gene methylation and cell death.

Misselected CD8 cells that express T cell receptors (TCRs) that do not recognize class I major histocompatibility complex (MHC) protein can emerge from thymic selection. A postthymic quality control mechanism that purges these cells from the repertoire is defined here. The failure of mature CD8 cells to simultaneously engage their TCR and CD8 coreceptor triggers an activation process that begins with inhibition of CD8 gene expression through remethylation and concludes with up-regulation of surface Fas and Fas ligand and cellular apoptosis. Thus, inhibition of a death signal through continued TCR-CD8 coengagement of MHC molecules is a key checkpoint for the continued survival of correctly selected T cells. Molecular defects that prevent delivery of the death signal to mistakenly selected T cells underlie the expansion of double-negative T cells, which is the cellular signature of a subset of systemic autoimmune diseases.

Activation of T cells by superantigen: cytokine production but not apoptosis depends on MEK-1 activity.

Engagement of the TCR may result in proliferation and cytokine release or programmed cell death. These two outcomes may be the consequence of distinct T cell receptor-coupled signal transduction pathways or may reflect quantitative differences in signaling strength via a single pathway. Here we show that genetic inhibition of MAP kinase kinase (MEK) by a dominant negative mutant or through chemical inhibition by PD98059 inhibits IL-2 secretion but not programmed cell death after TCR ligation by superantigen. This supports the hypothesis that T cell cytokine release and apoptosis result from signaling through distinct pathways and implies that the molecular signaling mechanisms regulating apoptosis of mature T cells and negative selection of thymocytes may be similar.

Suppression of immune responses by CD8 cells. I. Superantigen-activated CD8 cells induce unidirectional Fas-mediated apoptosis of antigen-activated CD4 cells.

Stimulation of mature CD4 cells through the TCR induces cellular activation and expansion that are often followed by clonal elimination by a form of apoptosis termed activation-induced cell death. This process of CD4 cell apoptosis is generally thought to reflect clonal suicide and to be independent of other cell types. Here we show that during the response to the superantigen Staphylococcal enterotoxin A, activated CD8 cells, but not activated CD4 cells, suppress the CD4 proliferative response. Suppression by CD8 cells reflects their ability to induce CD4 cell apoptosis via ligation of Fas. Moreover, although activated CD8 cells that express Fas ligand and Fas eliminate CD4 cells through a Fas-dependent mechanism, they are themselves resistant to Fas-dependent apoptosis. These findings indicate a fundamental difference between the two major T cell subsets with regard to sensitivity to Fas-dependent apoptosis, expression of Fas ligand, and mediation of suppressive activity following immunization with superantigen.

Suppression of immune responses by CD8 cells. II. Qa-1 on activated B cells stimulates CD8 cell suppression of T helper 2 responses.

We have investigated the role of MHC class I products and CD8 T cells in regulating Ab responses using beta2-microglobulin deficient (beta2m-/-) mice. Beta2m-/- mice produced stronger IgM and IgG responses than did control beta2m+/+ mice to both cellular and viral Ags. These Ab responses could be suppressed by infusion of activated B cells from beta2m+/+ mice. Further investigation showed that the beta2m-associated molecule on activated B cells that induced CD8 suppression was Qa-1 and that the Th2 component of CD4 cells was most affected by CD8-suppressive activity. Our findings suggest a novel pathway of Th inhibition in which B cell presentation of Qa-1-associated peptides stimulates CD8 suppressive activity.

Molecular mimicry by herpes simplex virus-type 1: autoimmune disease after viral infection.

Viral infection is sometimes associated with the initiation or exacerbation of autoimmune disease, although the underlying mechanisms remain unclear. One proposed mechanism is that viral determinants that mimic host antigens trigger self-reactive T cell clones to destroy host tissue. An epitope expressed by a coat protein of herpes simplex virus-type 1 (HSV-1) KOS strain has now been shown to be recognized by autoreactive T cells that target corneal antigens in a murine model of autoimmune herpes stromal keratitis. Mutant HSV-1 viruses that lacked this epitope did not induce autoimmune disease. Thus, expression of molecular mimics can influence the development of autoimmune disease after viral infection.

A novel Bcl-x isoform connected to the T cell receptor regulates apoptosis in T cells.

We define a novel Bcl-x isoform, Bcl-x gamma, that is generated by alternative splicing and characterized by a unique 47 amino acid C-terminus. Bcl-x gamma is expressed primarily in thymocytes, where it may depend on an interaction between the TCR and host MHC products, and in mature T cells, where its expression is associated with ligation of the T cell receptor. Overexpression of Bcl-x gamma in T cells inhibits activation-induced apoptosis; inhibition of Bcl-x gamma, after stable expression of Bcl-x gamma antisense cDNA, enhances activation-induced apoptosis. In contrast to other Bcl-x isoforms, cells that fail to express Bcl-x gamma after CD3 ligation undergo programmed cell death, while activated T cells that express Bcl-x gamma are spared. Identification of Bcl-x gamma helps provide a molecular explanation of T cell activation and death after antigen engagement.

Measurement of apoptosis in heterogenous cell populations.

The increasing interest in programmed cell death has created the need to measure apoptosis in complex cell systems. We have combined the use of fluorescent antibodies with the Hoechst 33342/propidium iodide system in order to quantitate programmed cell death in fractions of heterogenous cell populations. Here we describe the analysis of T-cell apoptosis after ligation of the T-cell antigen receptor by superantigen in vitro and ex vivo. This technique can separate cells according to seven parameters, fluorescence caused by FITC, PE, allophycocyanin, incorporation of Hoechst 33342, PI, forward scatter, and side scatter, and it allows determination of elevated Hoechst 33342 uptake in less than 10% of the cell population.

Nucleotide-dependent contractile properties of Ca(2+)-activated fast and slow skeletal muscle fibers.

The relation between single skinned skeletal fiber contractile mechanics and the myosin mechanoenzyme was examined by perturbing the actomyosin interaction with the ATP analog CTP in fibers from both rabbit psoas and rat soleus. Tension, instantaneous stiffness, and the rate of tension redevelopment (ktr), under software-based sarcomere length control, were examined at 15 degrees C for a range of Ca2+ concentrations in both fiber types. CTP produced 94% of the maximum ATP-generated tension in psoas fibers and 77% in soleus fibers. In psoas, CTP also increased stiffness to 106% of the ATP stiffness, whereas in soleus stiffness decreased to 92%. Thus, part of the greater difference between maximum ATP- and CTP-generated tension in soleus fibers appears to be due to a decrease in strongly bound cross-bridge number. Interestingly, although the nucleotide exchange produced substantial increases in the steepness (nH) of the tension- and stiffness-pCa relationships in soleus fibers, only minor changes were seen in psoas fibers. At maximum Ca2+ and nominal P(i) levels, ktr in psoas fibers increased from 11.7 s-1 with ATP to 16.6 s-1 with CTP and in soleus fibers from 4.9 to 8.4 s-1. Increased P(i) levels decreased the maximum Ca(2+)-activated tension in both fiber types and increased the ktr of psoas fibers, but the ktr of soleus fibers was not significantly altered. Thus, although the nucleotide exchange generally produced similar changes in the mechanics, there were significant muscle lineage differences in the tension- and stiffness-pCa relations and in the effects of P(i) on ktr, such that differences in contractile mechanics were lessened in the presence of CTP.

Interaction between CD44 and osteopontin as a potential basis for metastasis formation.

Malignant growth has been associated with oncogene activation, telomerase activity, and expression of CD44 splice variants on the cell surface. Though dysregulation of growth control due to expression of oncogene products is fairly well understood, the mechanism of CD44-mediated homing and colony formation in specific tissues has remained cryptic. We have identified the cytokine osteopontin as a ligand for CD44. Osteopontin binds to naturally expressed and stably transfected CD44 in a manner that is specific, dose-dependent, inhibitable by anti-CD44 antibodies, insensitive to competition by Gly-Arg-Gly-Asp-Ser, and sensitive to competition by hyaluronate. The receptor-ligand interaction mediates chemotaxis or attachment, depending on presentation of osteopontin in soluble or immobilized form. In contrast, binding of CD44 to hyaluronate mediates aggregation or attachment but not chemotaxis. We found that two events occurring in malignancy-secretion of osteopontin and expression of CD44v-are linked in such a way that they may cause migration of tumor cells to specific sites of metastasis formation.

Localization and treatment of an oxidation-sensitive defect within the TCR-coupled signalling pathway that is associated with normal and premature immunologic aging.

The age-dependent decline in the ability of T-cells to mount a proliferative response both to mitogens and to receptor ligation is due to an age-related defect in signal transduction, since functional expression of receptors displayed by aged T-cells is not reduced. We show here that, although turnover of phosphatidylinositol is not diminished, total inositol-trisphosphate generation decreases after T-cell receptor (TCR) ligation, resulting in reduced flux of calcium. Defective inositol-trisphosphate generation may result from impaired activation of phospholipase C due to decreased tyrosine phosphorylation of this enzyme after ligation of CD3 in aged cells. Proliferation of aged T-cells, which is normally 10-30% of the level of young controls, was enhanced almost tenfold by glutathione or its precursor N-acetyl L-cysteine (NAC), reached levels of young controls and was accompanied by restoration of normal inositol-trisphosphate generation and calcium flux. These findings suggest that the T-cell antigen receptor is associated with at least two types of signal transduction modules. The first depends on synthesis and phosphorylation of phosphatidylinositol that is independent of sulphydryl groups and is not affected by senescence. The second transduction module includes tyrosine phosphorylation and activation of phospholipase C. This module is regulated by glutathione levels and is diminished in aged T-cells, that are deficient in reducing equivalents which support the PLC gamma-dependent generation of inositol-trisphosphate from phosphatidylinositol derivatives. This underlying biochemical defect also occurs earlier in strains which display premature aging due to differences in the H-2 region of MHC I.

The immunology of Eta-1/osteopontin.

The cytokine Eta-1/osteopontin is secreted by activated macrophages and may constitute the most abundant molecule secreted by activated T-lymphocytes. It causes macrophages to migrate and suppress production of reactive oxygen species. It enhances generation of immunoglobulins or proliferation of B-lymphocytes. Its biochemical characteristics suggest that Eta-1/osteopontin may be the T-lymphocyte suppressor factor. The apparently conflicting effects on individual immune functions may reflect homeostatic mechanisms.