Interleukin-6 and soluble intercellular adhesion molecule-1 in acute brain ischaemia.

Inflammation plays a critical role in the pathogenesis of atherothrombosis. Our aim was to examine the association between plasma concentrations of inflammatory biomarkers and severity and outcome of acute brain ischaemia. Plasma samples were collected within 36 h of symptom onset in patients with acute brain ischaemia, and assessed by conventional ELISA kits for concentration of interleukin-6 (IL-6) and soluble intercellular adhesion molecule-1 (sICAM-1). Patients were assessed serially for stroke severity (National Institute of Health stroke scale) and outcome during follow-up (modified Rankin Scale, mRS; and Stroke Impact Scale-16, SIS). Patients (n = 113, 65% men, mean age 64 +/- 12 years) had a mean IL-6 concentrations of 5.1 +/- 5.0 pg/ml and sICAM-1 of 377 +/- 145 ng/ml. IL-6, but not sICAM-1, concentrations were strongly associated with stroke severity (P < 0.01 at all serial assessments). Ln-transformed IL-6 levels (per 1 SD) were associated with disability (mRS > or = 2, OR = 1.7; 95% CI 1.1-3.0) and poor physical function (SIS < or = 85, OR = 1.7; 95% CI 1.0-2.8). Further adjustment for baseline stroke severity, however, eliminated these associations. Our results suggest that high plasma concentrations of the inflammatory biomarker IL-6 but not sICAM-1 are associated with stroke severity and poorer functional outcome. IL-6 does not add, however, additional prognostic information for stroke outcome beyond that conveyed by the stroke severity.

Experimental acute necrotising pancreatitis: evaluation and characterisation of a model of intraparenchymal injection of sodium taurocholate in rats.

OBJECTIVES: To evaluate a simple model that produces progressive dose dependent pancreatitis, by intraparenchymal injection of sodium taurocholate. DESIGN: Open laboratory study. SETTING: Teaching hospital, Israel. MATERIALS: Forty eight Wistar rats. INTERVENTIONS: Sodium taurocholate was injected, 0.3 ml/100 g body weight, in concentrations of 5% and 10% into the pancreatic parenchyma of 32 Wistar rats, resulting in two distinct groups of severity. In 16 sham controls, saline was injected into the pancreas in similar fashion. Blood samples were withdrawn before, and 6, 24, 48, and 72 hours after induction of pancreatitis. RESULTS: Six hours after taurocholate injection, there was a sharp increase in the plasma activities of amylase, lipase, and lactate dehydrogenase (LDH). After 24 hours plasma activities of amylase and lipase decreased to near normal values while LDH remained slightly increased for 48 hours and decreased only after 72 hours. At 6 hours after the injection, interleukin-6 (IL-6) concentrations had increased slightly in the 5% group and decreased to the baseline values at 24 hours. In the 10% group, the increase in IL-6 values was significantly greater than in the 5% group (p = 0.04), and correlated well with severity of pancreatitis as defined by histology (p = 0.01) and mortality (p = 0.037). Twenty four hours after injection of taurocholate, morphological changes comprising diffuse necrosis of the pancreas, fat necrosis, and intestinal dilatation secondary to paralytic ileus were severe. Histopathological examination of the pancreas showed good correlation with the clinical findings and with mortality. No morphological changes were detected when saline was injected into the pancreas (sham control), and only mild rises of IL-6, lipase, amylase, and LDH activities were seen at 6 hours after injection. The mortality, after 10 days, was 80% in the 10% taurocholate group, 30% in the 5% taurocholate group, and 0 in the sham control group (p < 0.05). CONCLUSION: The intraparenchymal injection of taurocholate is easy to perform and highly reproducible. The histopathological injury is dose-dependent, as is the mortality. We conclude that this model is valuable for the study of new treatments for pancreatitis.

Idiopathic intracranial hypertension and anticardiolipin antibodies.

The association of idiopathic intracranial hypertension (IIH) or pseudotumour cerebri (PTC) with anticardiolipin antibodies (aCL-Abs) has been only acknowledged recently. However, its true incidence is as yet unknown. In this retrospective study, the co-occurrence of IIH and aCL-Abs was looked for among a relatively large group of patients diagnosed with IIH or PTC in the neuro-ophthalmology clinic during the years of 1992-8. All patients underwent routine blood tests and the presence of activated protein C resistance and protein S and protein C deficiency were recorded. ACL-Abs were determined in all patients. The co-occurrence of IIH and aCL-Abs was found in three out of 37 patients (8.1%), which is higher than the incidence of aCL-Abs in the general population but considerably lower than that reported in two previously published studies. The aCL-Ab positive patients in our series were significantly older and thinner than those in whom antibodies were undetected. In conclusion, it seems that patients with this association should be considered as a unique subgroup of IIH.

Acceleration of autoimmune diabetes by cyclophosphamide is associated with an enhanced IFN-gamma secretion pathway.

Cyclophosphamide (CY), an alkylating cytostatic drug, is known for its ability to accelerate a number of experimental autoimmune diseases including spontaneous diabetes in NOD mice. The mechanism(s) by which CY renders autoreactive lymphocytes more pathogenic is largely unknown, but it has been postulated that the drug preferentially depletes regulatory (suppressor) T cells. It has been suggested that in cell-mediated autoimmune diseases, Th2-like lymphocytes secreting IL-4 and/or IL-10 provide protection, while Th1-like cells secreting IFN-gamma are pathogenic. In this study, we analysed the effects of CY on autoimmune diabetes and cytokines in two mouse models: the spontaneous diabetes of NOD mice and the diabetes induced in C57BL/KsJ mice by multiple injections of low dose streptozotocin (LD-STZ). In both models, CY induced severe lymphopenia and accelerated the progression to hyperglycemia. This was associated with changes in splenic cytokine patterns indicating a shift towards the IFN-gamma-secreting phenotype. We provide here evidence that IFN-gamma producers are relatively resistant to depletion by CY and that Th0 clones can be shifted towards Th1. However, direct exposure of T lymphocytes to CY may not be a necessary condition for exacerbation of diabetes; NOD.scid mice treated with CY before adoptive transfer of NOD splenocytes developed diabetes at a higher rate than did controls. Thus, the acceleration of diabetes by CY seems to be a complex event, which includes the relatively high resistance of IFN-gamma producers to the drug, their rapid reconstitution, and a Th1 shift of surviving T cell clones.

Secretion of stem cell factor by alveolar fibroblasts in interstitial lung diseases.

Sarcoidosis (SA) and diffuse interstitial fibrosis (DIF) are characterized by alveolitis, mast cell hyperplasia and increased fibroblast proliferation. Stem cell factor (SCF) stimulates proliferation of hematopoietic progenitor cells involved in mast and stromal cell interaction. We assessed the role of SCF secreted by alveolar fibroblasts (AFb) in the development of fibrosis of DIF and SA in six patients with SA and six patients with DIF. Bronchoalveolar lavage (BAL) was performed by conventional methods. A total of 500 cells were differentially counted from Giemsa-stained cytopreps. AFb and supernatants were recovered from long-term cultures of BAL cells and from 24 h cultures of confluent AFb. Levels of SCF were measured by ELISA. Alpha actin content of AFb was characterized by immunohistochemistry. The expression of AFb mRNA for IL1-alpha and beta, TGF-beta, IFN-gamma, IL-2, IL-4, IL-5 and IL-6 was determined by RT-PCR. There was a lymphocytic predominance in the SA patients and an increase in neutrophils and eosinophils in DIF. SCF secreted by AFb from DIF was significantly higher than in SA. TNF + IL-1 significantly decreased the secretion of SCF by AFb. There was a positive correlation between SCF levels and the percentage eosinophils but not for metachromatic cells. Alpha-actin expression of AFb in DIF was significantly higher than in SA. Cytokine mRNA was extracted from AFb of two SA and two DIF patients. The profile showed that only in stimulated AFb isolated from the DIF patients can IL-5 transcripts be visualized. In conclusion, AFb can contribute to the onset of fibrosis by secreting SCF and IL-5 which, in turn, may recruit eosinophils.

A shared TCR CDR3 sequence in NOD mouse autoimmune diabetes.

T cells involved in autoimmune diseases have been characterized by the genetic elements used to construct their autoimmune TCR. In the present study, we sequenced the alpha and beta chains of the TCR expressed by a CD4(+) T cell clone, C9, functional in NOD mouse diabetes. Clone C9 can adoptively transfer diabetes or, when attenuated, C9 can be used to vaccinate NOD mice against diabetes. Clone C9 recognizes a peptide epitope (p277) of the 60 kDa heat shock protein (hsp60) molecule. We now report that the C9 TCR beta chain features a CDR3 peptide sequence that is prevalent among NOD mice. This CDR3 element is detectable by 2 weeks of age in the thymus, and later in the spleen and in the autoimmune insulitis. Thus, a TCR CDR3beta sequence appears to be a common idiotope associated with mouse diabetes.

Activated T lymphocytes induce degranulation and cytokine production by human mast cells following cell-to-cell contact.

Activated mast cells reside in close apposition to T cells in some inflammatory processes. In this study, we analyzed whether this close physical proximity affects human mast cell degranulation and cytokine release. Thus HMC-1 human mast cells or primary bone marrow-derived human mast cells were cocultured with activated and with resting T cells. Mast cells cocultured with activated T cells released histamine and beta-hexosaminidase and produced tumor necrosis factor alpha (TNF-alpha), an effect that peaked at 20 h. Kinetics of histamine release paralleled the formation of heterotypic aggregates. Separation of the two cell populations with a porous membrane prevented mediator release and TNF-alpha production. Addition of the PI3-kinase inhibitor, wortmannin, inhibited the heterotypic adhesion-associated degranulation but not TNF-alpha production. These data thus indicate a novel pathway through which human mast cells are activated to both release granule-associated mediators and to produce cytokines in association with heterotypic adhesion to activated human T cells.

Islet T cells secreting IFN-gamma in NOD mouse diabetes: arrest by p277 peptide treatment.

Non-obese diabetic (NOD) mice spontaneously develop insulin-dependent (type 1) diabetes mellitus (IDDM) caused by T cells which destroy the insulin-producing islet beta-cells. Since cytokines are involved in this auto-immune beta-cell damage, we used an ELISPOT assay to enumerate the islet-associated T cells that secreted interferon-gamma (IFN-gamma), tumor necrosis factor-alpha (TNF-alpha) or interleukin-4 (IL-4). We used mitogenic anti-CD3 antibody to activate all the T cells capable of responding, irrespective of their antigen specificity. We found that NOD females, more susceptible than males to IDDM, accumulated islet IFN-gamma producers more rapidly with age than did the males. Acceleration of male IDDM by cyclophosphamide led to a marked increase in IFN-gamma secreting islet T cells. In contrast, a decrease in IFN-gamma-producing islet T cells was associated with arrest of IDDM by administration of peptide p277 of the 60 kDa heat-shock protein (hsp60) to 12-week-old female NOD mice. The p277-treated mice later manifested a greater number of islets and fewer leukocytes per islet than did the mice treated with a bacterial hsp60 peptide. Thus, the development of diabetes could be correlated with the accumulation in the islets of T cells producing IFN-gamma, and destructive insulitis could be downregulated by the administration of a single peptide.

Inhibitory effects of low molecular weight heparin on mediator release by mast cells: preferential inhibition of cytokine production and mast cell-dependent cutaneous inflammation.

There has been substantial evidence that suggests that heparin may modulate various aspects of immune function and inflammation in addition to its well known anticoagulant activity. In this regard heparin was found to suppress cell-mediated immune responses or asthmatic reactions to allergen challenge. In the present study we analyse the effects of low molecular weight heparin (LMWH) on mast cell degranulation and cytokine production in vitro and on the elicitation of IgE-mediated mast cell-dependent late cutaneous allergic inflammation in vivo. We have established that LMWH preferentially inhibited tumour necrosis factor-alpha (TNF-alpha) and IL-4 production without having any significant effect on mast cell degranulation. These effects have been observed in mast cells derived from three different origins that were activated by either immunological or non-immunological stimuli. We have shown that there is inhibition of TNF-alpha production (and not neutralization of activity), as elimination of the drug after a short preincubation and addition of LMWH to rTNF-alpha had no effect on TNF-alpha-mediated cytotoxic activity. These results were also confirmed by ELISA. In vivo, s.c. injection of the LMWH inhibited the leucocyte infiltration associated with the late cutaneous response which followed passive cutaneous anaphylaxis (PCA) reaction, without affecting mast cell numbers or degranulation. These data suggest that LMWH may have an inhibitory role in mast cell-mediated allergic inflammation, and thus might be considered as a possible therapeutic modality.

Induction of diabetes in standard mice by immunization with the p277 peptide of a 60-kDa heat shock protein.

We previously reported that immunity to the p277 peptide of the human 60-kDa heat shock protein (hsp60) was a causal factor in the diabetes of non-obese diabetic (NOD) mice, which are genetically prone to develop spontaneous autoimmune diabetes. The present study was done to test whether immunization with the p277 peptide could cause diabetes in standard strains of mice. We now report that a single administration of the p277 peptide conjugated to carrier molecules such as bovine serum albumin or ovalbumin can induce diabetes in C57BL/6 mice and in other strains not genetically prone to develop diabetes. The diabetes was marked by hyperglycemia, insulitis, insulin autoantibodies, glucose intolerance and low blood levels of insulin. The diabetes could be transferred to naive recipients by anti-p277 T cell lines. Similar to other experimentally induced autoimmune diseases, the autoimmune diabetes remitted spontaneously. After recovery, the mice were found to have acquired resistance to a second induction of diabetes. Susceptibility to induced diabetes in C57BL/6 mice was influenced by sex (males were much more susceptible than were females) and by class II genes in the major histocompatibility complex (B6.H-2bm12 mice with a mutation in the MHC-II molecule were relatively resistant). Other strains of mice susceptible to induced diabetes were C57BL/KSJ, C3HeB/FeJ, and NON/Lt. BALB/c and C3H/HeJ strains were relatively resistant. Immunization to p277-carrier conjugates could also induce transient hyperglycemia in young NOD mice, but upon recovery from the induced diabetes, the NOD mice were found to have acquired resistance to later development of spontaneous diabetes. Thus, T cell immunity to the p277 peptide can suffice to induce diabetes in standard mice, and a short bout of induced diabetes can affect the chronic process that would otherwise lead to spontaneous diabetes in diabetes-prone NOD mice.

Inhibition of T cell adhesion to extracellular matrix glycoproteins by histamine: a role for mast cell degranulation products.

Mast cells, which are capable of releasing a multitude of preformed and newly generated biological mediators and cytokines, are involved in various inflammatory processes. We studied whether histamine, a mast cell degranulation product, influences the adhesive interactions of T cells with extracellular matrix (ECM) glycoproteins, an event that occurs at sites of inflammation and is mediated primarily by virtue of cell-surface receptors of the beta 1-integrin subfamily. A prerequisite of lymphocyte-ECM interactions is activation of the cells, which modulates the affinity of the otherwise inactive integrins. Isolated rat CD4+ T cells were preincubated with histamine and activated with phorbol myristate acetate (PMA), and their ability to adhere to immobilized ECM components (fibronectin and laminin) was determined. Preincubation with histamine resulted in a 40-50% decrease in the adhesion of the CD4+ cells to both fibronectin or laminin. The notion that inhibition of T cell adhesion to ECM proteins by histamine-induced increase of the cells' intracellular levels of cAMP, thus interfering with calcium influx-associated events that occur during T cell activation, is supported by the finding that T cell adhesion was also abrogated by pharmacological inducers of cAMP. When the T cells were preincubated with supernatants of immunologically activated mast cells and then activated with PMA, a 40-50% inhibition of their adhesion to fibronectin or laminin was also observed. The inhibitory moiety present in the mast cell degranulation supernatants was resistant to heat (80 degrees C). Histamine exerted its suppressive effect on adhesion of T cells via their H2 receptors, as pretreatment with H2 antagonists abrogated the inhibitory effect. Thus, both purified histamine and mast cell-secreted histamine appear to be capable of affecting T cell interactions with ECM.

Normal serum increases adhesion of neutrophils to tracheal epithelial cells by a CD11b/CD18-dependent mechanism.

Airway inflammation is characterized by intraluminal influx of inflammatory cells, exudation of plasma, and increased procoagulant activity. We speculated that inflammatory cells might adhere to the airway surface epithelium in order to better localize and regulate airway inflammatory responses. Therefore, in this study, we asked whether neutrophils adhere to airway epithelial cells, whether serum or plasma factors increase adhesion, and, if so, what the characteristics of the involved adhesion molecules are. To answer these questions, we incubated human 51Cr-labeled neutrophils from peripheral blood with dog tracheal epithelial cells in culture in the presence or absence of normal human serum or plasma. After 30 min, nonadhering neutrophils were centrifuged away and neutrophil adhesion was assessed by radioassay. We found that unstimulated adhesion of neutrophils to cultured epithelial cells was quite low (< 6%). However, incubation with 10% serum or plasma increased adhesion of neutrophils to epithelial cells dramatically (up to a mean of 71%). The serum-induced increase in adhesion was concentration dependent; even 1% serum was effective (19% adhesion). Serum adhesion factor acted selectively on epithelial surfaces, was heat sensitive, had a molecular weight > 12,000, and depended on the presence of divalent cations. mAb 60.3 (anti-CD18) and mAb anti-Mol (anti-CD11b, anti-CR3) inhibited serum-induced adhesion by > 50% each. We conclude that normal serum and plasma contain a potent adhesion factor that induces adhesion of neutrophils to tracheal epithelium in culture.(ABSTRACT TRUNCATED AT 250 WORDS)

Intravenous immunoglobulin treatment of experimental T cell-mediated autoimmune disease. Upregulation of T cell proliferation and downregulation of tumor necrosis factor alpha secretion.

It has been reported previously that intravenous administration of normal human immunoglobulins (IVIg) to human patients can suppress the clinical signs of certain autoimmune diseases. However, the mechanism(s) by which normal Ig interferes with the various disorders and the scheduling of treatment have been poorly delineated. To study these questions, we examined IVIg treatment of two experimentally induced T cell autoimmune diseases in rats: experimental autoimmune encephalomyelitis (EAE) and adjuvant arthritis (AA). We now report that IVIg treatment (0.4 g/kg) inhibited the active induction of both EAE and AA, and that this treatment did not affect the acquisition of resistance to reinduction of EAE. The importance of the site of administration and schedule of treatment were studied in the AA model. Ig was effective when given intravenously, but not when administrated subcutaneously or intraperitoneally. IVIg treatment was effective when given daily from immunization to outbreak of disease; but it was also effective when given once at the time of immunization or once 2 wk after induction of AA, just at the clinical outbreak of disease. Administration of IVIg between immunization and outbreak of AA was less effective. Prevention of disease by IVIg occurred despite the presence of T cell reactivity to the specific antigens in the disease. In fact, IVIg administrated to naive rats activated T cell reactivity to some self-antigens. Nevertheless, IVIg treatment led to decreased production of the inflammatory cytokine TNF alpha. Thus, IVIg treatment may exert its therapeutic power not by inhibiting T cell recognition of self-antigens, but by inhibiting the biological consequences of T cell recognition.

Nedocromil sodium inhibits T-cell function in vitro and in vivo.

Nedocromil sodium, a topical antiinflammatory agent recommended as a prophylactic regimen for asthma, is known to inhibit both allergic and nonallergic inflammatory processes in which an essential role for T cells has been implicated. Therefore the direct effects of this drug on several aspects of T-cell activity were analyzed in the present study. By using murine lymphocytes we found that NS at concentrations of 10(-8) to 10(-6) mol/L inhibited the mitogen- or antigen-induced proliferative responses of these cells. It is interesting to note that higher concentrations were ineffective. Preincubation of immune lymph node cells from contact sensitized mice with the drug abrogated their ability to transfer contact sensitivity to naive recipients, an effect that was found to be specific for the treated cells. Nedocromil sodium also interfered with the mitogen-induced interleukin-2 and tumor necrosis factor production by T cells and with their ability to adhere to the bound protein components of the extracellular matrix laminin and fibronectin. All these effects may be attributed to the inhibition of the increase of cytosolic calcium, which accompanies the early phase of T-cell activation and which is an essential step in inducing the aforementioned phenomena.

Prolongation of survival of rat cardiac allografts by T cell vaccination.

Administration of attenuated, activated autoimmune T lymphocytes to syngeneic mice and rats has been shown to prevent or induce remission of experimental autoimmune diseases specific for the autoimmune T cells. The process has been termed "T cell vaccination." In a recent study, T cell vaccination was done using T cells sensitized to rat alloantigens. The procedure produced a significant reduction of the mixed lymphocyte reaction (MLR) against allogeneic cells. The reduction in MLR was not specific: Vaccination with T cells specific for stimulator cells of one allotype led to a reduced MLR stimulated by cells of another allotype. The present study was undertaken to examine whether T cell vaccination can induce tolerance to transplantation antigens in vivo. We used the model of heterotopic cardiac transplantation in rats. We now report that vaccinating rats with syngeneic, activated, alloantigen-primed T lymphocytes significantly prolonged survival of rat cardiac allografts. The effect of T cell vaccination was most evident when the T cells had been obtained from rats specifically sensitized against the donor rats: Brown-Norway (BN) allografts in control Wistar rats survived 8.5 +/- 0.4 d while BN allografts survived 29.2 +/- 7.1 d in Wistar rats that had been vaccinated with Wistar anti-BN cells. Vaccination of Wistar rats with Wistar anti-hooded T cells prolonged survival of BN heart allografts to a lesser but significant degree (13.0 +/- 1.1 d). Thus, T cell vaccination of recipients can prolong survival of allografts.

Induction of experimental autoimmune encephalomyelitis by native myelin basic protein-activated T lymphocyte lines.

Self antigens bind to MHC class II molecules in vivo. The capacity of class II molecules to bind native self antigen, namely antigen that has not been processed through an endososomal pathway, could increase susceptibility to autoimmune diseases if recognized by autoreactive T lymphocytes. To confirm this prediction we designed experiments to show that: (a) native myelin basic protein (BP) activates encephalitogenic T lymphocyte lines, and (b) these activated lines cause experimental autoimmune encephalomyelitis (EAE) in naive rats. We show that two encephalitogenic T lymphocytes lines, LEW and BN, are activated by native BP in the presence of paraformaldehyde pre-fixed antigen-presenting cells (APC). The degree of activation, as measured by T lymphocyte proliferation, was equal to that obtained in response to BP processed by APC prior to paraformaldehyde fixing. The response to native BP was confirmed by demonstrating insensitivity to the presence of the lysosomotropic agent chloroquine or protease inhibitors. Activation of T lymphocytes by BP required the presence of syngeneic APC. The activated T lymphocyte lines were injected into naive recipient rats that developed EAE within 5 days. Both disease incidence and severity were equal to that observed in rats that were treated with T lymphocytes activated by processed BP. Hence, at least in EAE, the risk of an autoimmune event could be precipitated by a complex of native antigen and class II molecules on cells that do not possess an endososomal pathway for antigen processing and presentation.

Vaccination against autoimmune mouse diabetes with a T-cell epitope of the human 65-kDa heat shock protein.

Insulin-dependent diabetes mellitus is caused by autoimmune destruction of the insulin-producing beta cells resident in the pancreatic islets. We recently discovered that the pathogenesis of diabetes in NOD strain mice was associated with T-cell reactivity to an antigen cross-reactive with a mycobacterial 65-kDa heat shock protein. To identify peptide epitopes critical to the insulin-dependent diabetes mellitus of NOD mice, we studied the specificities of helper T-cell clones capable of causing hyperglycemia and diabetes. We now report the identification of a functionally important peptide within the sequence of the human variant of the 65-kDa heat shock protein molecule. T-cell clones recognizing this peptide mediate insulitis and hyperglycemia. Alternatively, the T cells can be attenuated and used as therapeutic T-cell vaccines to abort the diabetogenic process. Moreover, administration of the peptide itself to NOD mice can also down-regulate immunity to the 65-kDa heat shock protein and prevent the development of diabetes. Thus, T-cell vaccination and specific peptide therapy are feasible in spontaneous autoimmune diabetes.

Inhibition of the mixed lymphocyte reaction by T cell vaccination.

Immunization with attenuated activated autoreactive T cell lines and clones induces a response in syngeneic animals which can induce protection or recovery from autoimmune disease. This process has been termed T cell vaccination. The aim of the present study was to investigate the effect of immunization with MHC-reactive T cells on the mixed lymphocyte reaction (MLR). By injecting attenuated activated T cells primed for an alloantigen, we markedly reduced the MLR in both rats and mice. This depression appeared to be mediated by active suppression; lymphoid cells from T cell-vaccinated animals suppressed the MLR responsiveness of T cells from naive animals. Suppression of the MLR was not restricted to the major histocompatibility complex (MHC) alleles used to prime the animals from which the T cell vaccines were prepared; the MLR to other MHC allelic stimulator cells was also suppressed. This MHC-unrestricted suppression could not be attributed to an anti-ergotypic response to non-MHC-linked activation markers on T cells; an anti-ergotypic response augmented rather than suppressed the MLR. We herein propose that T cell vaccination might influence the MLR by suppressing the responses of diverse T cells which bear shared T cell receptor idiotypes.

Induction and therapy of autoimmune diabetes in the non-obese diabetic (NOD/Lt) mouse by a 65-kDa heat shock protein.

Insulin-dependent diabetes mellitus is caused by autoimmune destruction of the insulin-producing beta cells of the pancreas. The results described here indicate that a beta-cell target antigen in non-obese diabetic (NOD/Lt) mice is a molecule cross-reactive with the 65-kDa heat shock protein (hsp65) of Mycobacterium tuberculosis. The onset of beta-cell destruction is associated with the spontaneous development of anti-hsp65 T lymphocytes. Subsequently hsp65 cross-reactive antigen becomes detectable in the sera of the prediabetic mice and some weeks later anti-hsp65 antibodies, anti-insulin antibodies, and anti-idiotypic antibodies to insulin antibodies become detectable. The hsp65-cross-reactive antigen, the autoantibodies, and the T-cell reactivity then decline with the development of overt insulin-dependent diabetes. The importance of hsp65 in the pathogenesis of insulin-dependent diabetes was confirmed by the ability of clones of anti-hsp65 T cells to cause insulitis and hyperglycemia in young NOD/Lt mice. Moreover, hsp65 antigen could be used either to induce diabetes or to vaccinate against diabetes, depending on the form of its administration to prediabetic NOD/Lt mice. Other antigens such as the 70-kDa heat shock protein (hsp70) had no effect on the development of diabetes.