Antibody to acetylcholine receptor in canine and human myasthenia gravis: differential cross-reactivity with human and rabbit receptor

Anti-acetylcholine receptor (AChR) antibody (ab) was found in the serum of a dog with acute myasthenia gravis (MG) by the use of Cowan 1 strain Staphylococcus aureus to bind radiolabeled anti-AChR ab-AChR immune complexes. Fifteen months later, when the dog was in remission, there was only a very low level of the anti-AChR ab. These observations strengthen the contention that anti-AChR ab is important in the pathophysiology of myasthenia gravis. Higher titers of the canine ab were measured with rabbit than with human AChR, whereas 17 human MG sera, selected to represent a wide range of anti-AChR ab titers, were all more reactive with human AChR. The degree of cross-reactivity of human anti-AChR ab with rabbit AChR varied widely, indicating a heterogeneous population of anti-AChR ab molecules in human myasthenia gravis sera.     

Anti-neuroblastoma antibodies in myasthenia gravis: clinical and immunological correlations

Forty-four of 109 myasthenia gravis (MG) patients (40%) had serum antibodies against human neuroblastoma cells (NBL). Anti-NBL antibodies were most frequent in the sera of MG patients who had either a hyperplastic thymus or a thymoma, clinically mild to moderately severe generalized MG, and a long disease duration (greater than or equal to 11 years). No correlation between individual anti-NBL antibody and anti-acetylcholine receptor (AChR) antibody titers was observed. Seven of the 19 patients negative for anti-AChR antibodies (37%) had anti-NBL antibodies in their sera. These findings provide further evidence for immunological heterogeneity in MG. In addition to the typical autoantibodies to the AChR, autoimmunization against neural antigens can frequently be detected in these patients.     

Experimental autoimmune myasthenia gravis in mice expressing human immunoglobulin loci

Antibodies (Abs) specifically directed against the muscular acetylcholine receptor (AChR) mediate the pathogenesis of myasthenia gravis (MG). The animal model experimental autoimmune MG (EAMG) can be induced by passive transfer or by active immunization of anti-AChR Abs. We report a new EAMG mouse model that generates human anti-AChR Abs upon immunization with Torpedo AChR (tAChR). Mice transgenic for human mu, gamma1, and kappa germ line genes (HuMAb-Mice) were immunized with tAChR. Serum titers of anti-tAChR Abs were in the nanomolar range, and anti-rodent AChR Abs were in picomolar range. Some HuMAb-Mice had signs of muscle weakness, clearly indicating their susceptibility to EAMG. Human Ab-mouse AChR complexes were found at the neuromuscular junction, while AChR loss was up to 65%. Spleen and lymph nodes were used for producing hybridomas. Of the anti-tAChR monoclonal Ab-producing hybridomas, 2% had cross-reactivity with rodent AChR and none with human AChR. Immunization with a fusion protein, Trx-Halpha1-210, displaying the human main immunogenic region did not result in EAMG or the generation of human anti-human AChR monoclonal Abs. These experiments show that the HuMAb-Mouse represents a suitable model to generate and study the effects of human anti-AChR Abs in vivo.     

Specific immunoadsorption of the autoantibodies from myasthenic patients using the extracellular domain of the human muscle acetylcholine receptor alpha-subunit. Development of an antigen-specific therapeutic strategy

Antibodies against the acetylcholine receptor (AChR) are the main pathogenic factor in myasthenia gravis (MG). Clinical improvement correlates well with a reduction in levels of circulating anti-AChR antibodies, and plasmapheresis is an efficient short-term MG treatment. The Sepharose-immobilized N-terminal extracellular domain of human muscle AChR alpha-subunit was used to immunoadsorb anti-AChR autoantibodies from 50 MG patients sera. The immunoadsorbents removed 60-94% of the anti-AChR antibodies in 10 sera and a mean of 35% from all samples combined. Immunoadsorption was fast, efficient, and the columns could be used repeatedly without any release or proteolysis of the polypeptide, suggesting the feasibility of antigen-specific MG immunoadsorption therapy.     

Neuroimmunology of myasthenia gravis

Myasthenia gravis (MG) is an autoimmune disease in which the immune system attacks the nicotinic acetylcholine receptors (AChRs) of the neuromuscular junction. Anti-AChR antibodies are present in 85% of patients and bind to distinct epitopes on the surface of the AChR alpha subunits, as defined by competition with monoclonal anti-AChR antibodies. There are at least three types of the disease, defined by thymic histology, age of onset, and HLA associations, and anti-AChR antibodies show some differences in fine specificity between those with thymic hyperplasia and those with thymic tumors. Peripheral blood lymphocytes from MG patients contain T lymphocytes specifically sensitized to AChR. These are stimulated by purified Torpedo AChR and some human alpha subunit synthetic peptides. The T and B cell epitopes on the primary sequence of the alpha subunit are currently being mapped using recombinant human AChR subunit fragments.     

A sensitive rosetting assay for detection of acetylcholine receptor antibodies using BC3H-1 cells: positive results in 'antibody-negative' myasthenia gravis

Antibodies to acetylcholine receptor (AChR) were measured in a group of patients with myasthenia gravis (MG), some of whom had previously been classified as 'antibody negative' using the standard anti-AChR radioimmunoassay (RIA). AChR antibodies were measured using the rosetting assay, a new detection method which utilizes protein A-coated red blood cells and live BC3H-1 cells, a murine cell line which expresses muscle nicotinic AChR. The results of the rosetting assay were compared with those obtained in the anti-AChR RIA. 76% of all myasthenic sera tested showed rosetting at titers higher than any of the control sera (from patients with non-myasthenic neurologic disease and normal individuals). Of the myasthenic patients previously classified as 'antibody negative' in the RIA using human AChR, 71% demonstrated positive rosetting. There was no correlation between the anti-AChR antibody titer obtained in the rosetting assay and that obtained in the RIA using either human or denervated rat AChR. The results suggest that the rosetting assay may measure a subpopulation of antibodies that differs from those detected in the RIA.     

Detection of anti-acetylcholine receptor antibody by an ELISA using human receptor from a rhabdomyosarcoma cell line

A simple and reliable enzyme-linked immunosorbent assay (ELISA) has been developed for the measurement of anti-acetylcholine receptor (AChR) antibodies. The test utilizes a membrane-bound AChR obtained from a human rabdomyosarcoma cell line (TE671) as antigen and employs an affinity-purified rabbit anti-human immunoglobulin G alkaline phosphatase-conjugated antibody as labelled antibody. To assess the sensitivity and the specificity of our assay we tested serum samples from 13 anti-AChR antibody-positive myasthenia gravis (MG) patients known to contain between 2 and 120 nmol/l of anti-AChR antibody, three anti-AChR antibody-negative MG patients, and 70 control subjects including patients with other neurological and autoimmune diseases. A panel of six different anti-AChR monoclonal antibodies and membranes from a AChR-negative rat adrenal pheochromocytoma cell line (PC 12) were also used in competitive studies. The test showed to be specific and able to detect as low as 2.0 nmol/l of anti-AChR antibodies. Moreover, we found a good correspondence between anti-AChR antibody levels measured in the serum samples tested by our assay and levels measured by the routinely adopted radioimmuno assay (RIA) using human-AChR (r = 0.96). Cross-reaction phenomena were observed only using serum samples containing high-titer anti-DNA antibodies. The proposed ELISA, circumventing the limitation of the commonly used RIA (radioactivity and amputated legs as source of human antigen), can be considered as an useful screening test for the diagnosis of myasthenia gravis.     

Myasthenia gravis: monoclonal antihuman acetylcholine receptor antibodies used to analyze antibody specificities and responses to treatment

We investigated the heterogeneity of serum antibodies to acetylcholine receptor (AChR) by competition with nine antihuman monoclonal antibodies in a cross-sectional study of 36 patients with myasthenia gravis (MG), and in three who showed clinical improvement associated with decrease in total anti-AChR following immunologic treatment. Two specificities were more prevalent in patients without thymoma, an done of these was more prevalent in cases beginning before age 40. Some specificities were stable during serial studies, whereas other fluctuated. We found evidence of three groups of antibody specificities that had different control mechanisms and may define different regions of the receptor.     

Antigenic difference of acetylcholine receptor between single and multiple form endplates of human extraocular muscle

The acetylcholine receptor (AChR) of human extraocular muscle (EOM) has been studied by the immunological method using anti-AChR antibodies obtained from the sera of patients with myasthenia gravis (MG) of ocular type, whose symptoms have been restricted to EOM. Those antibodies could distinguish the AChR of multiple (en grappe) form endplates from that of single (en plaque) form endplates. This result indicates the antigenic difference of AChR between those two forms of endplates of human EOM.     

Effect of thymectomy and immunosuppressive therapy on anti-neuroblastoma antibody levels in patients with myasthenia gravis

Antibodies reacting with human neuroblastoma cells (NBL) are distinct from the "classical" anti-acetylcholine receptor (AChR) antibodies in myasthenia gravis (MG). The influence of therapeutic interventions on serum anti-NBL antibody levels was followed in 42 MG patients. Thymectomy alone was performed in 28 patients while immunosuppressive medication was given to 14 patients out of whom 10 also had a thymectomy. In most patients serum anti-NBL antibody titers declined after thymectomy and/or during immunosuppressive treatment, though individual variations in the antibody response could be observed. Sequential examinations of individual patients revealed an association between the clinical severity of MG and anti-NBL antibody levels. No correlation between the treatment-induced changes of anti-NBL and anti-acetylcholine receptor (AChR) antibody titers could be observed during the follow-up period in MG patients positive for both types of antibodies. These findings further emphasize the immunological complexity of MG. Anti-NBL antibodies represent a pathogenic marker of the disease and display a regulation different from that of the anti-AChR antibodies.     

IgG from "seronegative" myasthenia gravis patients binds to a muscle cell line, TE671, but not to human acetylcholine receptor

Antibodies to acetylcholine receptor (AChR) are found in 85% of patients with myasthenia gravis (seropositive MG [SPMG]) and are thought to be pathogenic; but in 15% of MG patients, the standard immunoprecipitation test for anti-AChR is negative (seronegative MG [SNMG]). Here, we used a novel approach, fluorescence-activated cell sorting analysis, to measure binding of SPMG and SNMG IgG antibodies to rhabdomyosarcoma cell lines that express human adult (TE671-epsilon) or fetal (TE671-gamma) AChR, and to human embryonic kidney (HEK) fibroblasts that express adult human AChR (HEK-AChR). We found that whereas most SPMG antibodies bind to all three cell lines, IgG from 8 of 15 SNMG sera/plasmas bind to the surface of both TE671 cell lines but not to HEK-AChR cells. These results indicate that SNMG antibodies bind to a muscle surface antigen that is not the AChR, which strongly supports previous studies that suggest that SNMG should be considered a distinct subtype of MG.     

Study of antibodies to motor end-plate in ocular myasthenia gravis

This study was undertaken to investigate whether serum obtained from ocular MG with undetectable antibodies contains antibodies which bind to normal motor end-plates immunohistochemically. Nineteen patients with ocular MG were studied. Anti-AChR antibodies in serum were assayed by an immunoprecipitation method using human junctional AChR as the antigen. Anti-AChR antibodies in serum which bind to the junctional AChR at the motor end-plates were detected immunohistochemically by incubating the muscle with each serum. Bound IgG was detected by peroxidase labeled protein A (P-PA). IgG deposit at the own limb muscle motor end-plates (biceps brachii) was also detected by P-PA. Anti-AChR antibodies in serum were positive in 9 out of 19 patients and IgG antibodies bound to the junctional AChR were demonstrated in 16 of 19 patients. IgG bound to own end-plates was observed in 13 of 14 patients studied. In 2 patients IgG was detected at the own end-plates, but not at the not-self end-plates. These findings indicate that detection of IgG at the limb muscle end-plates serves for the diagnosis of ocular MG with undetectable antibodies in serum and anti-AChR antibodies in some patients may react exclusively with the autologous AChR.     

Evidence against acetylcholine receptor having a main immunogenic region as target for autoantibodies in myasthenia gravis

We investigated specificities of acetylcholine receptor (AChR) antibodies in 100 seropositive patients with myasthenia gravis (MG). Antibodies in 74 of these sera were inhibited by more than 50% from binding to human muscle AChR by a rat monoclonal antibody (mAb) of "main immunogenic region" (MIR) specificity. The mAb inhibition was not explainable by epitope competition because (1) the mAb was reactive with both Torpedo and human AChR, but antibodies in 85 of the MG sera did not bind to Torpedo AChR, and (2) the mAb blocked binding of rat anti-peptide antibodies to an alpha subunit region of the human AChR unrelated antigenically to the designated MIR region. Individual patients' sera had evidence of extensive antibody heterogeneity and revealed interspecies polymorphisms in AChR antigenicity, near and remote from the neurotransmitter-binding region. The data challenge the concept that a MIR of the AChR is the principal stimulus for antibody production in MG and emphasize a potential pitfall in assuming seronegativity in MG on the basis of a single assay system.     

Seronegative myasthenia gravis: disease severity and prognosis

Around 10-20% of myasthenia gravis (MG) patients do not have acetylcholine receptor (AChR) antibodies (seronegative), of whom some have antibodies to a membrane-linked muscle specific kinase (MuSK). To examine MG severity and long-term prognosis in seronegative MG compared with seropositive MG, and to look specifically at anti-AChR antibody negative and anti-MuSK antibody negative patients. Seventeen consecutive seronegative non-thymomatous MG patients and 34 age and sex matched contemporary seropositive non-thymomatous MG controls were included in a retrospective follow-up study for a total period of 40 years. Clinical criteria were assessed each year, and muscle antibodies were assayed. There was no difference in MG severity between seronegative and seropositive MG. However, when thymectomized patients were excluded from the study at the year of thymectomy, seropositive MG patients had more severe course than seronegative (P < 0.001). One seropositive patient died from MG related respiratory insufficiency. The need for thymectomy in seronegative MG was lower than in seropositive MG. None of the seronegative patients had MuSK antibodies. This study shows that the presence of AChR antibodies in MG patients correlates with a more severe MG. With proper treatment, especially early thymectomy for seropositive MG, the outcome and long-term prognosis is good in patients with and without AChR antibodies.     

In vitro immunoglobulin synthesis by peripheral blood mononuclear cells from patients with myasthenia gravis

In vitro immunoglobulin (Ig) synthesis was studied using peripheral blood mononuclear cells (PBM) from 12 patients with myasthenia gravis (MG). In cultured PBM, levels of secreted IgG, IgM and IgA measured by ELISA, as well as the number of IgG-, IgM-, and IgA-secreting cells determined by reversed plaque assay, were higher in MG than in controls; this was not dependent upon the stimulation of PBM with pokeweed mitogen (PWM). PBM from 9 of 12 MG patients synthesized anti-acetylcholine receptor (AChR) antibodies in vitro in the presence of PWM, while PBM from 7 controls did not. Patients whose PBM secreted lower levels of each Ig class also secreted fewer or no anti-AChR antibodies. Levels of anti-AChR antibodies secreted in vitro showed a high degree of correlation with titers of sera from patients (r = 0.86). The results suggest that the process of anti-AChR antibody synthesis by PBM in vitro is related to that of Ig synthesis, and that PBM plays, at least in part, an important role in the production of anti-AChR antibodies in MG.     

Myasthenia in SCID mice grafted with myasthenic patient lymphocytes: role of CD4+ and CD8+ cells

OBJECTIVES: Acetylcholine receptor (AChR)-specific CD4+ cells are present in MG patients, and synthesis of the high-affinity immunoglobulin G (IgG) autoantibodies (autoAb) against the muscle AChR that causes MG symptoms requires intervention of CD4+ cells. The role of CD4+ cells in MG pathogenesis has been postulated but never proven. MG patients do not have anti-AChR cytotoxic phenomena, and it has been assumed that CD8+ cells do not have a pathogenic role in MG. However, CD8+ cells may facilitate rodent experimental MG, raising the possibility that CD8+ cells might be necessary also in MG. In this study we examined whether CD4+ and CD8+ cells play a role in the pathogenesis of MG and whether CD4+ cells specific for AChR epitope sequences recognized by most MG patients ("universal" epitopes) drive the synthesis of pathogenic antibodies. METHODS: First we characterized a chimeric human-mouse model of MG in severe combined immunodeficiency (SCID) mice engrafted with blood lymphocytes (BL) from MG patients. We used that model to determine whether CD4+ and CD8+ cells are necessary for transfer of MG symptoms. We engrafted SCID mice intraperitoneum with BL from 19 MG patients and 5 healthy controls. We engrafted some mice with either BL, BL depleted in CD4+ or CD8+ cells from the same patient, or CD4+ depleted BL reconstituted with CD4+ T cells from the same patient, specific for "universal" AChR epitopes or for two unrelated antigens, tetanus and diphtheria toxoids. We tested the mice for myasthenic symptoms for 7 to 18 weeks. RESULTS: Mice transplanted with BL, or CD8+ depleted BL, or CD4+-depleted BL reconstituted with anti-AChR CD4+ cells from MG patients frequently developed myasthenic weakness. The mice had human anti-AChR Ab in the serum and bound to muscle AChR. Mice transplanted with BL from controls, or CD4+-depleted BL from MG patients, or CD4+-depleted BL from an MG patient reconstituted with CD4+ cells specific for tetanus or diphtheria toxoids did not develop myasthenic weakness or anti-AChR Ab. CONCLUSIONS: CD4+ cells are necessary for MG pathogenesis; CD8+ cells may not be. CD4+ cells specific for "universal" AChR epitopes help the synthesis of pathogenic Ab.     

Heterogeneity of antibodies directed against the alpha-bungarotoxin binding site on human acetylcholine receptor and severity of myasthenia gravis

A rapid and sensitive radioimmunological method is described, using decamethonium (DC), which revealed antibodies which blocked alpha-bungarotoxin (alpha-Bgt) binding to human acetylcholine receptor (AChR) in 98% of myasthenia gravis (MG) patients' sera tested. These sera had anti-AChR antibody titres by the conventional assay. The titre of blocking antibodies (1 to 110 nM) could be measured and was found to produce from 1 to 54% inhibition of alpha-Bgt binding. No relationship was found between these titres and anti-AChR antibody titres. MG sera were divided into 2 major groups on the basis of their blocking effects, with and without DC, but there was no correlation between these and the clinical status, as defined by Osserman's classification. However, no sera from asymptomatic or ocular MG patients had the dual capacities of blocking alpha-Bgt binding, directly and in the presence of DC.     

Antibodies in sera from patients with myasthenia gravis do not bind to nicotinic acetylcholine receptors from human brain

Nicotinic acetylcholine receptors (AChRs) from brains of chickens and rats have recently been purified and characterized (Whiting and Lindstrom, Biochemistry, 25 (1986) 2082-2093; J. Neurosci., 6 (1986) 3061-3069; Proc. Natl. Acad. Sci. U.S.A., 84 (1987) 595-599). Using both antisera and monoclonal antibodies prepared to AChRs from rat brain, we have demonstrated the existence of a homologous AChR in human brain. Here we report that antibodies to muscle AChRs in the sera of patients with myasthenia gravis (MG) do not bind to AChRs from human brain. Similarly, there was no binding of sera from patients with Guillain-Barré, amyotrophic lateral sclerosis, multiple sclerosis, or Lambert-Eaton myasthenic syndrome. Additionally, no binding of any of these sera to the alpha-bungarotoxin (alpha-Bgt) binding protein from human brain could be detected. This data is consistent with other data using antibodies to AChRs from muscle and nerve in demonstrating that the AChR in brain is antigenically distinct from the AChR in skeletal muscle AChR, and, together with the lack of central neurological symptoms in MG, suggests that the low concentrations of anti-AChR antibodies in the cerebrospinal fluid of MG patients do not bind to AChRs in brain.     

The thymus in myasthenia gravis: Site of “innate autoimmunity”?

Myasthenia gravis (MG) is an autoimmune disorder caused, in most cases, by autoantibodies against components of the neuromuscular junction, frequently the acetylcholine receptor (AChR), and less often the muscle-specific kinase receptor. The thymus plays a major role in the pathogenesis of MG with anti-AChR antibodies: it shows marked pathologic alterations (hyperplastic or tumoral) in most AChR-positive patients and contains the elements required to initiate and sustain an autoimmune reaction (AChR autoantigen, AChR-specific T cells, and autoantibody-secreting plasma cells). In this study we review early and more recent findings implicating the thymus as site of AChR autosensitization in MG and briefly discuss the therapeutic role of thymectomy. We also summarize data showing that the MG thymus is in a state of chronic inflammation, and we review emerging evidence of a viral contribution to the onset and maintenance of the thymic autoimmune response.     

乙酰胆碱受体诱导实验性自身免疫性重症肌无力模型的建立

目的采用纯化乙酰胆碱受体(acetylcholine receptors,AChR)免疫大鼠和小鼠以建立实验性自身免疫性重症肌无力(experimental autoimmune myasthenia gravis,EAMG)动物模型。方法以亲和层析法从电鳐电器官提取和纯化AChR,并用其免疫接种Lewis大鼠和C57BL/6小鼠,观察接种动物的临床症状、电生理变化以及AChR抗体产生的情况。结果动物模型临床肌无力症状、翻转悬挂时间(小鼠,P<0.05)、重复神经电刺激(repetitive nerve stimulation,RNS)动作电位衰减率、抗体吸光度(P<0.05)及新斯的明试验均为阳性或有统计学意义。结论纯化电器官AChR作为免疫原,成功诱导产生EAMG动物模型。Lewis大鼠和C57BL/6小鼠均对AChR免疫易感而产生EAMG表现,7~8周龄的C57BL/6更易诱导出类似人类MG表现的EAMG。