Heterogeneity of T-cell receptor usage in experimental autoimmune neuritis in the Lewis rat.
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In experimental autoimmune neuritis (EAN), T-cell receptor (TCR) variable (V)-region gene usage by neuritogenic T cells has been reported to be clonally restricted at the RNA level. This study was designed to verify TCR usage by neuritogenic T cells at the protein level. We generated two monoclonal antibodies (mAbs) 7H4 and 8G8 specific for a Vbeta4/Valpha11 associated idiotype expressed by the majority of neuritogenic cells of P2-specific T-cell lines. The remaining neuritogenic P2-specific T cells either exhibited a dominant usage of the TCR Vbeta13 chain recognized by the recently generated mAbs 17D5 and 18B1 or showed diverse Vbeta usage. Treatment of adoptive-transfer (AT)-EAN or of EAN actively induced with the neuritogenic P2 peptide by mAbs 7H4 and 8G8 led to a partial, but significant, reduction of clinical disease. Treatment with Vbeta13-specific mAb 17D5 had no clear effect on active EAN. Our data show that at least three different TCR are used by P2-specific pathogenic T cells in EAN, an animal model for human inflammatory neuropathies. (+info)
A complementary peptide vaccine that induces T cell anergy and prevents experimental allergic neuritis in Lewis rats.
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We have developed and described a new method of altering T cell-mediated autoimmune diseases by immunization with the complementary peptide against T cell epitopes. The complementary peptide (denoted NAE 07-06) to the bovine P2 protein, residues 60-70 (denoted EAN 60-70), was tested in the Lewis rat model of experimental allergic neuritis (EAN). Immunization with NAE 07-06 induced polyclonal and monoclonal Abs that inhibited the proliferation of the P2-specific T cell line, stimulated with EAN 60-70, and recognized Vbeta, but not Valpha, of TCRs. Proliferation of T cells treated with anti-NAE 07-06 Abs could be partially restored by treatment with rIL-2, in accordance with an anergy model. A homologous sequence was found between NAE 07-06 and the VDJ junction of the TCR beta-chain from an EAN 60-70-specific T cell line. Rats preimmunized with NAE 07-06 in vivo before EAN induction showed less disease severity clinically and histologically. These data suggest a new therapeutic approach for T cell-mediated autoimmune disorders through the induction of anti-TCR Abs with complementary peptide Ags. (+info)
Suppression of chronic experimental autoimmune neuritis by nasally administered recombinant rat interleukin-6.
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Experimental autoimmune neuritis (EAN) is a CD4+ T-cell-mediated demyelinating disease of the peripheral nervous system (PNS) and serves as experimental model for human immune-demyelinating neurophathies, especially the Guillain-Barre syndrome. In this study, we examined the effect of recombinant rat interleukin-6 (rrIL-6) on chronic EAN in Lewis rats induced by immunization with P2 peptide 57-81 and Freund's complete adjuvant (FCA). Nasal administration of rat rIL-6 (1 microg/rat/day) beginning in the initial phase of EAN as a therapeutic agent, decreased the severity and the duration of clinical EAN. Low-grade inflammation and suppression of regional demyelination within the sciatic nerves were seen in rrIL-6-treated rats. Hyporesponsiveness of lymph node T cells, down-regulation of serum tumour necrosis factor-alpha (TNF-alpha) and increased levels of P2-specific immunoglobulin G1 (IgG1) antibodies document that nasal administration of rrIL-6 was effective systemically. However, because of the non-specific nature of the treatment and multiple effects of IL-6, more experience and great caution are needed, before nasal administration of IL-6 can be considered as a treatment of human autoimmune demyelinating neurophathies. (+info)
Transfer of myelin-specific cells deviated in vitro towards IL-4 production ameliorates ongoing experimental allergic neuritis.
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A causal role of IL-4 (Th2) production for recovery in experimental allergic neuritis (EAN) was indicated by experiments where Th1-like autoreactive cell populations, taken from the induction phase of the disease, were deviated to extensive secretion of IL-4 in a selective fashion, by ex vivo stimulation with autoantigen in the presence of IL-4. The deviated cells were adoptively transferred to EAN rats at a time just prior to the onset of clinical signs. This treatment ameliorated EAN compared with sham treatment. This therapeutic approach, with generation of autoreactive IL-4-secreting cells ex vivo followed by subsequent adoptive transfer, may become a new selective treatment of organ-specific autoimmune diseases since, in contrast to previous attempts, it is done in a physiological and technically easy way. (+info)
Suppression of experimental autoimmune neuritis by leflunomide.
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Leflunomide is a new immunosuppressive drug whose active metabolite, A77 1726, impairs cellular nucleotide metabolism by inhibiting the dihydroorotate dehydrogenase (DHODH), a rate-limiting enzyme of de novo pyrimidine synthesis. Furthermore, A77 1726 suppresses tyrosine kinases involved in signal transduction pathways. We investigated the immunosuppressive effects of leflunomide in experimental autoimmune neuritis (EAN) in rats, which is a model of immune-mediated neuropathies. In EAN that was actively induced by subcutaneous injection of peripheral nerve myelin, leflunomide completely prevented paraparesis if applied orally from the day of immunization. Leflunomide was much more effective than azathioprine, which did not mitigate EAN at all. Even when leflunomide was administered therapeutically after the appearance of the first neuropathical signs, it halted the progression and markedly reduced the severity and duration of EAN. Inflammatory infiltrates, demyelination and axonal degeneration in sciatic nerve sections of leflunomide-treated EAN rats were strongly reduced. Leflunomide-treated rats did not mount autoantibodies as specified by ELISA (enzyme-linked immunosorbent assay) with a mixture of peripheral myelin proteins, including P2 and myelin basic protein. In EAN that was adoptively transferred by injection of neuritogenic cells of a P2-specific T-helper line, application of leflunomide also clearly reduced signs of disease. Additional injection of uridine did not neutralize the effect of leflunomide. Similarly, transfer of neuritogenic P2-specific T cells, which were activated in the presence of A77 1726 plus uridine in vitro, still resulted in reduced severity of adoptive transfer EAN in vivo, although proliferation of these cells in vitro was identical to that of control cells. The T-cell receptor-mediated in vitro activatability of a P2-specific T-cell hybridoma was diminished by high concentrations of A77 1726, as evidenced by reduced Ca(2+) flux into the cytosol. Together with the findings in adoptive transfer EAN, this indicates that the antiproliferative effect is probably not the only mechanism of immunosuppressive action by leflunomide. In summary, leflunomide suppresses EAN efficiently and may constitute a promising therapy for immune-mediated neuropathies. (+info)
Vaccination, prevention, and treatment of experimental autoimmune neuritis (EAN) by an oligomerized T cell epitope.
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Using a polypeptide oligomer harboring 16 repeats of the neuritogenic epitope (aa 58-73) of myelin P2 protein separated by spacers, enhancement of the immune response to the P2 protein, an important neuritogenic autoantigen in experimental autoimmune neuritis (EAN), was attempted. In contrast to a previous study with PLP-16-mer antigen-specific response of T cells was attenuated at all doses examined to a variable degree. Treatment of Lewis rats with the P2-16-mer up to 2 months before immunization with P2(53-78) (vaccination) or after immunization but before appearance of disease (prevention) had a strong tolerizing effect against the induction of EAN on immunization with P2(53-78). Moreover, rats injected with 200 microg of the P2-16-mer i.v. on day 11 after disease induction, at which time the initial signs of disease had appeared, were almost completely protected against progression of clinical disease, whereas animals treated with the same amount of monomeric control peptide developed severe disease (treatment). Similar results were obtained by i.v. treatment of adoptive-transfer EAN with the P2-16-mer. The lack of clinical signs of disease after 16-mer therapy could be correlated with a reduced proliferative response of P2(53-78)-specific lymph node cells. The frequency of apoptotic T cells in sciatic nerve or in lymph node cells, however, was not increased by the 16-mer treatment, suggesting that induction of anergy or other forms of peripheral tolerance may be responsible for the effect. Thus, the oligomerized P2 peptide antigen was highly effective in all three treatment modalities examined in this specific autoreactive T cell-mediated immune response. (+info)
Treatment of rats with experimental allergic neuritis using high dose immunoglobulin.
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OBJECTIVE: To investigate the therapeutic potential of high-dose immunoglobulin (HIG) in experimental allergic neuritis (EAN) to provide a theoretical basis of its clinical use in the treatment of human inflammatory demyelinating neuropathies. METHODS: Female Lewis rats were induced to EAN, and divided into experimental and control groups. The rats were treated with either 0.3 g/kg.day-1 of IgG or an equivalent volume of 0.15 mol/L glycine. Clinical, electrophysiologic, and histologic evaluations were carried out in a blind fashion. RESULTS: Clinically, rats treated with IgG had significantly less severe symptoms (P < 0.001) and slower progression (P < 0.001) than controls. Electrophysiologically, the mean conduction latency of the experimental group was significantly shorter than controls (P < 0.05). Histologically, rats treated with IgG prepared from normal Lewis rats had a significantly lower percentage of demyelinated fibers (P = 0.01) and total abnormal fibers (P < 0.001) than controls. Statistically, clinical, electrophysiologic and morphologic data were all significantly correlated. CONCLUSIONS: The EAN animal model is reliable for observation of HIG effects, and useful to provide data for clinical work. HIG has a significant therapeutic effect in EAN when given soon after disease onset. It can reduce clinical disease severity and decrease the number of demyelinated fibers as well as the number of total abnormal fibers. For the current controversy over whether HIG is effective, the results of this research support the clinical use of HIG in human demyelinating neuropathy. (+info)
Antibodies specific for the neuronal ganglionic nicotinic acetylcholine receptor (nAChR) are found in high titer in serum of patients with subacute autonomic failure. This clinical disorder is known as autoimmune autonomic neuropathy (AAN). Rabbits immunized with a neuronal nAChR alpha3 subunit fusion protein produce ganglionic nAChR antibodies and develop autonomic failure (experimental AAN, or EAAN). We used quantitative measures of autonomic function to demonstrate that this animal model of neuronal nAChR autoimmunity recapitulates the cardinal autonomic features of AAN in humans. The severity of dysautonomia in the rabbit ranges from isolated cardiovagal impairment to severe panautonomic failure with fixed mydriasis, gastroparesis, dry eyes, impaired heart rate variability, hypotension, and low plasma catecholamines. The severity of autonomic failure correlates with serum antibody levels. Immunohistochemical staining of superior cervical ganglia and myenteric plexus neurons demonstrates intact presynaptic nerve terminals and intact postsynaptic neurons containing cytoplasmic nAChR, but lacking surface nAChR. These findings define the autonomic physiology and histopathology of this novel animal model and support the concept that AAN in humans is a disorder of ganglionic cholinergic synaptic transmission caused by ganglionic nAChR antibodies. (+info)