Mariapaola Marino

Anti-P110 Autoantibodies Identify a Subtype of “Seronegative” Myasthenia Gravis with Prominent Oculobulbar Involvement

Myasthenia gravis (MG) is an autoimmune disease characterized by muscle weakness and pathogenetic autoantibodies directed against the nicotinic acetylcholine receptor (seropositive myasthenia gravis; SPMG). Nearly 15% to 20% of MG patients do not have these antibodies (seronegative myasthenia gravis; SNMG), but several evidence indicate that these patients have circulating pathogenic autoantibodies directed against other muscle antigens. Using the TE671 rhabdomyosarcoma cell line as an antigen source, we analyzed sera from 63 SNMG and 26 SPMG patients and 26 healthy blood donors by FACS analysis. We found that 40 of 63 SNMG patients and only 1 of 26 SPMG patients had IgG binding to the TE671 cell line. None of the sera bound to the unrelated MRC5 cell line. To identify the antigen, we analyzed sera immunoreactivity in more detail by immunoprecipitation of biotinylated membrane proteins from TE671 cells. When the immunoprecipitated proteins were separated by SDS-PAGE electrophoresis and then transferred to nitrocellulose membranes, we found that SNMG IgG identify a band corresponding to a protein with a molecular weight of 110 kDa (P110), which is not recognized by seropositive MG sera. This anti-P110 immunoreactivity is significantly associated with a distinct clinical picture characterized by a prominent involvement of ocular and bulbar muscles, with frequent respiratory problems (p < 0.005), and is recognized by a specific antimuscle specific kinase (MuSK) antiserum. In a recent article, the presence of anti-MuSK antibodies was described in SNMG. Our results confirm the presence of these antibodies in SNMG and suggest that anti-P110/MuSK autoantibodies identify a subtype of SNMG in which the different pathogenesis induces the distinct clinical picture.

Anti-MuSK antibodies: Correlation with myasthenia gravis severity

The authors measured anti–muscle-specific tyrosine kinase (anti-MuSK) antibodies (Abs) in 83 serum samples from 40 patients and evaluated their correlation with myasthenia gravis severity and treatment response. Ab concentrations were often reduced by immunosuppression but not after thymectomy. Both in individual cases and in the whole population, a correlation between Ab levels and disease severity was found.

HLA class II allele analysis in MuSK-positive myasthenia gravis suggests a role for DQ5

Myasthenia gravis (MG) is caused by autoantibodies targeting, in most cases, the acetylcholine receptor (AChR-MG). Different disease subtypes are distinguished on the basis of clinical characteristics and thymus pathology. In 40% of patients with anti-AChR negative generalized MG, the disease appears to be mediated by antibodies against the muscle specific kinase (MuSK-MG).1 We evaluated HLA-DRB1*, DQA1*, and DQB1* allele profile in MuSK-MG in comparison with a control population and non-thymoma early onset AChR-MG (AChR-EOMG). We chose to compare these two clinical entities as they share a high prevalence in women and a proportion of MuSK-MG patients have early onset disease. ### Patients. Our study includes consecutive unrelated patients, all with generalized MG. Patients gave informed consent to inclusion in the study, which was approved by the local Ethics Committee. The MuSK-MG group included 37 patients (8 men/29 women, onset age: 6–62 years), the thymus was normal for age in 10 patients who underwent thymectomy, thyroid autoimmunity was associated in 4/37 cases (10.5%). The AChR-EOMG group comprised 28 patients (4 men/24 women, onset age: 9–39 years), thymic hyperplasia was found in 24/26 thymectomized cases, and different autoimmune disorders were associated in 8/28 (28.6%). All patients were from Central Italy, with Italian ancestors. For …

Skeletal muscle cells: from local inflammatory response to active immunity

The skeletal muscles are the major living component of the human body. They are constituted by stable cells, the myofibres, and by adult multipotent stem cells, the satellite cells, which can multiply to regenerate and repair the damaged tissues. Injections of DNA in muscle cells have been used to produce recombinant proteins with opposite goals: somatic reparation of genetic defects, which needs to elicit no inflammatory or immune response, and DNA vaccination, which needs a robust immune response. Because of possible therapeutical interventions, a growing body of information is being produced dealing with every aspect of the myofibres during inflammatory and autoimmune responses: skeletal muscle–antigen presenting cell (APC) interaction and intrinsic APC capabilities of myoblasts and myocytes, the response to released cytokines and their endogenous production, the regulation of Toll-like receptors and major histocompatibility complex expression. According to these data, the muscle tissue is now emerging no longer as a passive bystander, but more as an active player that, when correctly manipulated, can drive tolerance or immunization to these de novo produced proteins. In the present review, we summarize the recent developments on the control of muscle immune function.

Constitutive and cytokine-induced expression of MHC and intercellular adhesion molecule-1 (ICAM-1) on human myoblasts

We studied the expression of MHC-I and MHC-II molecules and ICAM-1 in cultured human myoblasts in response to IL-1beta, IL-4, IL-6, IFN-gamma and LPS. IFN-gamma, LPS and IL-4 greatly increase MHC-I molecule expression. MHC-II molecule expression is induced only by IFN-gamma. Membrane ICAM-1 and mRNA expression are absent under basal conditions, but can be induced by IFN-gamma, IL-1beta, IL-4, LPS and IL-6 with different efficiencies and time-courses. Soluble ICAM-1 secretion can be induced to a different extent by all cytokines. Our study shows that the expression of adhesion-related molecules in muscle is finely regulated by these cytokines.

Effect of pro-inflammatory/anti-inflammatory agents on cytokine secretion by peripheral blood mononuclear cells in rheumatoid arthritis and systemic lupus erythematosus.

We studied a well-selected population of patients with active rheumatoid arthritis (RA) or systemic lupus erythematosus (SLE) without immunosuppressive therapy. Control and patient peripheral blood mononuclear cells (PBMC) were incubated with IL-1 g, IL-10, TGF- g or LPS for 20 h and the in vitro basal and stimulated secretions of IL-6, TNF- f, IL-1 g and IL-1ra were measured by ELISA. We found that in the SLE patients the basal secretion of IL-6 was significantly lower and that of IL-1ra significantly higher than in control subjects, while in the RA group the basal IL-1ra secretion was higher than in healthy subjects. SLE and RA PBMC responded to LPS and IL-1 g reaching higher cytokine secretion values than controls. The in vitro response of SLE and RA PBMC to TGF g was normal, while that to IL-10 was defective: IL-10 was able to stimulate the production of IL-6 and IL-1ra in PBMC from normal subjects, but it was unable to enhance IL-6 secretion in RA cells and it was also completely ineffective in inducing IL-1ra secretion in both SLE and RA PBMC. Our work add new data useful for the evaluation of IL-10 and IL-1ra as therapeutic agents in rheumatic diseases.

IL-6 regulates MCP-1, ICAM-1 and IL-6 expression in human myoblasts.

The inflammatory reaction in autoimmune polymyositis and rejection of transplanted myoblasts is characterized by mononuclear cell infiltration. In other settings monocytes are locally recruited by an IL-6-induced IL-8-to-MCP-1 switch. IL-6, upon binding to soluble gp80 (sIL-6R), can interact with membrane-bound ubiquitously expressed gp130 and activate virtually all cells (transsignaling). We found that human myoblasts could use transsignaling to produce IL-6, MCP-1 and ICAM-1; the addition of sIL-6R, binding to IL-1beta-induced IL-6, greatly increases IL-6 production. These in vitro data support the hypothesis that locally secreted IL-6 can target monocyte chemotaxis and leukocytes trafficking through an IL-6, MCP-1 and ICAM-1 modulation.

PTPN22 and myasthenia gravis: replication in an Italian population and meta-analysis of literature data.

Polymorphisms in PTPN22 are associated with many autoimmune diseases; while rs2476601 is supposed to play a major role, other experimental data suggest that rs2488457 may be even more important. Results in myasthenia gravis are controversial. In 356 Italian myasthenic patients and 439 controls genotyped for both polymorphisms, we found that rs2476601 was not associated with myasthenia, presence of autoantibodies, thymus pathology, sex or onset age unlike previous studies on other European populations (confirmed by the present meta-analysis). On the other hand, while rs2488457 was not associated with myasthenia or thymus pathology, we found a correlation of rs2488457 with low autoantibody titers and a trend of association with a less severe disease. Both polymorphisms were in tight linkage disequilibrium in controls, not in patients. Our results suggest that SNPs in this gene different from rs2476601, and/or epigenetic interactions, could play a greater role.

Flow Cytofluorimetric Analysis of Anti-LRP4 (LDL Receptor-Related Protein 4) Autoantibodies in Italian Patients with Myasthenia Gravis

Background Myasthenia gravis (MG) is an autoimmune disease in which 90% of patients have autoantibodies against the muscle nicotinic acetylcholine receptor (AChR), while autoantibodies to muscle-specific tyrosine kinase (MuSK) have been detected in half (5%) of the remaining 10%. Recently, the low-density lipoprotein receptor-related protein 4 (LRP4), identified as the agrin receptor, has been recognized as a third autoimmune target in a significant portion of the double sero-negative (dSN) myasthenic individuals, with variable frequency depending on different methods and origin countries of the tested population. There is also convincing experimental evidence that anti-LRP4 autoantibodies may cause MG. Methods The aim of this study was to test the presence and diagnostic significance of anti-LRP4 autoantibodies in an Italian population of 101 myasthenic patients (55 dSN, 23 AChR positive and 23 MuSK positive), 45 healthy blood donors and 40 patients with other neurological diseases as controls. All sera were analyzed by a cell-based antigen assay employing LRP4-transfected HEK293T cells, along with a flow cytofluorimetric detection system. Results We found a 14.5% (8/55) frequency of positivity in the dSN-MG group and a 13% frequency of co-occurrence (3/23) in both AChR and MuSK positive patients; moreover, we report a younger female prevalence with a mild form of disease in LRP4-positive dSN-MG individuals. Conclusion Our data confirm LRP4 as a new autoimmune target, supporting the value of including anti-LRP4 antibodies in further studies on Myasthenia gravis.

Anti-acetylcholinesterase antibodies associate with ocular myasthenia gravis

In MG, anti-AChR or anti-MuSK abs impair neuromuscular transmission. Partial inhibition of AChE can ameliorate symptoms, while a complete block causes a cholinergic blockade. We found anti-AChE abs in 115/240 MG patients, with no correlation with sex, age at onset, thymus pathology, presence of anti-AChR or anti-MuSK antibodies. We found a correlation with the ocular form of the disease, and with milder forms of MG not requiring immunosuppressants; moreover, when we considered only those patients who were off AChEI therapy, we found that ocular patients were positive for anti-AChE abs, while generalized patients were negative. According to an experimental model, we hypothesize that anti-AChE abs could contribute to ptosis through an inhibition of the sympathetic innervation of the tarsal muscle.