Robert N. Adams

Serum antibodies to GM1 ganglioside in amyotrophic lateral sclerosis

We report the presence of serum antibodies directed against GM1 ganglioside, a defined neural antigen, in many patients with amyotrophic lateral sclerosis (ALS). We examined serum from a series of patients with well-documented clinical diagnoses. Serum antibodies to GM1 ganglioside were measured using ELIS A assays. Our results showed that polyclonal IgM anti-GM1 antibodies were present at dilutions of 1:25 to 1:2,000 in 42 of 74 (57%) patients with ALS. The anti-GM1 antibodies were especially frequent in patients with prominent lower motor neuron signs (41/59; 69%). Few normal controls (2/23) and motor-sensory neuropathy patients (3/27) had similar antibodies. Anti-GM1 antibodies did occur in patients with nonneural autoimmune disorders. However, the anti-GM1 antibodies in these patients tended to differ from those in ALS based on an analysis of their light chain types. Further examination of the role and spectrum of serum antiganglioside antibody activity in motor neuron syndromes is warranted.

Clinical comparison of muscle‐specific tyrosine kinase (MuSK) antibody‐positive and ‐negative myasthenic patients

We assayed cryopreserved sera from 38 acetylcholine receptor (AChR) antibody‐negative patients with myasthenia gravis (MG) who were followed clinically for muscle‐specific tyrosine kinase (MuSK) antibodies and analyzed and compared their clinical characteristics. None of 13 sera from patients with purely ocular MG were positive. Sera from 10 of 25 patients (40%) with generalized MG were positive for MuSK antibodies. The age at onset of myasthenic symptoms was significantly earlier in MuSK antibody‐positive patients (P = 0.02). MuSK antibodies were present in AChR antibody‐negative patients of either gender, with virtually identical prevalence in women (41.2%) and men (37.5%). The distribution of weakness more commonly involved neck muscles in MuSK antibody‐positive patients, and limb muscles in MuSK antibody‐negative patients. Patients responded to immunosuppressive treatment regardless of whether MuSK antibody was present. We conclude that MuSK antibodies are present and diagnostically useful in a subset of myasthenic patients without AChR antibodies. Although the distribution of weakness differs somewhat depending on whether MuSK antibodies are present, responses to anticholinesterase and immunosuppressive treatments are similar.

Mechanisms of acetylcholine receptor loss in myasthenia gravis.

The fundamental abnormality affecting the neuromuscular junctions of myasthenic patients is a reduction of available AChRs, due to an autoimmune attack directed against the receptors. Antibodies to AChR are present in most patients, and there is evidence that they have a predominant pathogenic role in the disease, aided by complement. The mechanism of antibody action involves acceleration of the rate of degradation of AChRs, attributable to cross-linking of the receptors. In addition, antibodies may block AChRs, and may participate in producing destructive changes, perhaps in conjunction with complement. The possibility that cell-mediated mechanisms may play a role in the autoimmune responses of some myasthenic patients remains to be explored. Although the target of the autoimmune attack in myasthenic patients is probably always the acetylcholine receptors, it is not yet clear which of these immune mechanisms are most important. It is likely that the relative role of each mechanism varies from patient to patient. One of the goals of future research will be to identify the relative importance of each of these mechanisms in the individual patient, and to tailor specific immunotherapeutic measures to the abnormalities found.

Rebooting the Immune System with High‐Dose Cyclophosphamide for Treatment of Refractory Myasthenia Gravis

A small but important proportion of patients with myasthenia gravis (MG) are refractory to conventional immunotherapy. We have treated 12 such patients by “rebooting” the immune system with high‐dose cyclophosphamide (Hi Cy, 200 mg/kg), which largely eliminates the mature immune system, while leaving hematopoietic precursors intact. The objective of this report is to describe the clinical and immunologic results of Hi Cy treatment of refractory MG. We have followed 12 patients clinically for 1–9 years, and have analyzed their humoral and cellular immunologic parameters. Hi Cy is safe and effective. All but one of the patients experienced dramatic clinical improvement for variable periods from 5 months to 7.5 years, lasting for more than 1 year in seven of the patients. Two patients are still in treatment‐free remission at 5.5 and 7.5 years, and five have achieved responsiveness to immunosuppressive agents that were previously ineffective. Hi Cy typically reduced, but did not completely eliminate, antibodies to the autoantigen AChR or to tetanus or diphtheria toxin; re‐immunization with tetanus or diphtheria toxoid increased the antibody levels. Despite prior thymectomy, T cell receptor excision circles, generally considered to reflect thymic emigrant T cells, were produced by all patients. Hi Cy treatment results in effective, but often not permanent, remission in most refractory myasthenic patients, suggesting that the immune system is in fact “rebooted,” but not “reformatted.” We therefore recommend that treatment of refractory MG with Hi Cy be followed with maintenance immunotherapy.

Treatment of experimental myasthenia gravis with cyclosporin A

Cyclosporin A (CsA) is an immunosuppressive agent that has recently been used to prevent rejection of transplanted tissues. The effects of CsA treatment of rats with experimental autoimmune myasthenia gravis (EAMG), an antibody-mediated autoimmune disorder of acetylcholine receptors (AChRs) at neuromuscular junctions, have been studied. CsA treatment at the time of primary immunization suppressed the antibody responses to AChR virtually completely. Following 12 weeks of CsA, the AChR-immunized rats responded like naive controls to a further challenge of AChR. Treatment of ongoing EAMG resulted in a reduction of AChR antibody by more than 50%. The secondary response to a challenge of AChR was prevented by CsA treatment, but a very large challenge dose in adjuvant partially overwhelmed the effect of CsA. CsA treatment also prevented the loss of AChRs at neuromuscular junctions, as compared with untreated EAMG controls (P less than 0.02). The efficacy of CsA in suppressing ongoing and secondary hetero- and autoimmune responses against AChR in EAMG encourages its ultimate application in autoimmune diseases of man, such as MG. Its usefulness will depend on the ability to determine effective doses of CsA that are well tolerated.

Oral Tolerance in Myasthenia Gravisa

Because of the antibody-mediated pathogenesis of MG, it is of particular interest to understand the effects of oral administration of the autoantigen AChR on the disease process. It is now clear that feeding AChR prior to immunization can prevent clinical manifestation of EAMG. It initially primed, then inhibited, antibody responses to foreign (Torpedo) AChR and self (rat) AChR, with a delayed onset. Cellular responses to AChR, evaluated by lymphocyte proliferation and IL-2 production, were markedly inhibited. The effects were dependent on the dose and purity of the fed antigen. Tolerance to an orally administered unrelated antigen, OVA, was more prompt in development and more profound, illustrating the influence of the nature of the antigen on tolerance. The tolerance induced was antigen specific. Oral administration of AChR after immunization resulted in inhibition of the clinical manifestation of EAMG, concomitant with a paradoxical enhancement of the AChR-antibody responses. Both the clinical benefit and the antibody response appear to be dependent on the feeding protocol. These findings suggest that a molecule with less immunogenic potential than native AChR may be required for safe and effective oral treatment of ongoing disease.

Differential effects of prednisone and cyclophosphamide on autoantibodies in human neuromuscular disorders

We compared the effects of treatment of patients with prednisone or cyclophosphamide on a series of different types of autoantibodies. Levels of antiacetylcholine receptor (anti-AChR) antibodies and of antibodies to GM, and GD,, gangliosides were measured in patients with a variety of neuromuscular disorders before and after treatment. Most patients had several autoantibodies present. We showed that prednisone treatment resulted in a reduction in titers of anti-AChR but not angantiglioside antibodies. Cyclophosphamide treatment produced a reduction of antiganglioside antibody titers. An intravenous and oral regimen was more effective than a single intravenous course of cyclophosphamide. We conclude that an immunosuppressive medication such as prednisone may reduce levels of some autoantibodies while producing no change in others, even in an individual patient. In addition, cyclophosphamide can suppress autoantibodies that prednisone does not. These differences in immunopharmacologic responses suggest that there are several distinct mechanisms of autoantibody production in humans. The utility of immunosuppressive medications in specific disease processes may be related in part to the mechanism of production of pathogenic antibodies.

ANTIBODY‐MEDIATED MECHANISMS OF ACh RECEPTOR LOSS IN MYASTHENIA GRAVIS: CLINICAL RELEVACE*

The basic abnormality in myasthenia gravis (MG) is a decrease of available acetylcholine receptors ( AChRs) at neuromuscular junctions, due to an autoimmune attack. The receptor deficit was first identified by the use of 12iiI-aBungarotoxin ( 12+a-BuTx), a purified snake toxin that binds specifically and virtually irreversibly to AChRs to measure AChRs in muscle biopsies from myasthenic patients. In the initial studies, neuromuscular junctions of MG patients bound only 11% to 30% as much radioactivity as those of control individuals, indicating that they hed a markedly reduced number of AChR sites.l These observations have now been confirmed in several laboratories, by a varicty of techniques using a-BuTx binding,+: or electrophysiological measurements.G~ Indeed, our recent data, based on over 100 motor-point biopsies, suggests that the radiometric measurement of junctional AChRs in biopsy material may be clinically valuable as one of the most sensitive diagnostic tests for MG (Pestronk and Drachman, in preparation). The concept of an autoimmune mechanism involved in the pathogenesis of MG was first suggested by indirect evidence, including the association of MG with other autoimmune diseases,s the high incidence of thymic abnormalities in MG,” the reduction of complement levels in patients with MG lo and the development of an experimental animal model of MG produced by immunization with purified AChR from the electric organs of eels or rays.11 Based on the knowledge of a receptor deficit in MG, and the analogy to the experimental animal model, antibodies directed against AChRs were soon sought in sera of myasthenic patients. Anti-rcceptor antibodies were identificd by several different immunological methods, all of which depend on a-BuTx for their specificity.l?-lj With the most sensitive radioimmunoassay, circulating antibodies that bind to human AChR are detected in sera of nearly 90% of myasthenic patients,l* although the titer does not correspond closely with the patient’s clinical condition, The question of whether the circulating antibodies have a pathogenic role, or merely represent a sccondary response to AChR damage caused by some other agent, is critical in understanding the disease mechanisms in MG. At the last conference on MG sponsored by The New York Academy of Sciences, we reported initially results of passive transfer experiments that demonstrated

Specific Immunotherapy by Genetically Engineered APCs: The “Guided Missile” Strategy

We tested the hypothesis that APCs genetically engineered to present an Ag and to express Fas ligand (FasL) simultaneously can target and eliminate Ag-specific T cells. Transgenic T cells specific for influenza hemagglutinin (HA) were used as targets. We prepared recombinant vaccinia virus vectors (VVV) to transfer the gene constructs individually or simultaneously into APCs. We prevented unwanted viral replication by attenuating the VVVs with psoralen-UV light treatment. For presentation of the HA Ag, APCs were transduced with cDNA for HA flanked by sequences of the lysosome-associated membrane protein that direct efficient processing and presentation of the Ag by APCs. As a “warhead” for the APCs, we transduced them with the gene for FasL, which induces apoptosis of Fas-expressing activated T cells. To protect the transduced APCs from self-destruction by FasL, we transferred cDNA for a truncated form of Fas-associated death domain, which inhibits Fas-mediated cell death. Our results show that the engineered APCs effectively expressed the genes of interest. APCs transduced with VVV carrying all three gene constructs specifically killed HA-transgenic T cells in culture. Coculture with T cells specific for an unrelated Ag (OVA) had no significant effect. Our in vitro findings show that APCs can be genetically engineered to target and kill Ag-specific T cells and represent a promising novel strategy for the specific treatment of autoimmune diseases.

Osteopontin enhances HIV replication and is increased in the brain and cerebrospinal fluid of HIV-infected individuals.

Despite effective and widely available suppressive anti-HIV therapy, the prevalence of mild neurocognitive dysfunction continues to increase. HIV-associated neurocognitive disorder (HAND) is a multifactorial disease with sustained central nervous system inflammation and immune activation as prominent features. Inflammatory macrophages, HIV-infected and uninfected, play a central role in the development of HIV dementia. There is a critical need to identify biomarkers and to better understand the molecular mechanisms leading to cognitive dysfunction in HAND. In this regard, we identified through a subtractive hybridization strategy osteopontin (OPN, SPP1, gene) an inflammatory marker, as an upregulated gene in HIV-infected primary human monocyte-derived macrophages. Knockdown of OPN in primary macrophages resulted in a threefold decrease in HIV-1 replication. Ectopic expression of OPN in the TZM-bl cell line significantly enhanced HIV infectivity and replication. A significant increase in the degradation of the NF-κB inhibitor, IκBα and an increase in the nuclear-to-cytoplasmic ratio of NF-κB were found in HIV-infected cells expressing OPN compared to controls. Moreover, mutation of the NF-κB binding domain in the HIV-LTR abrogated enhanced promoter activity stimulated by OPN. Interestingly, compared to cerebrospinal fluid from normal and multiple sclerosis controls, OPN levels were significantly higher in HIV-infected individuals both with and without neurocognitive disorder. OPN levels were highest in HIV-infected individuals with moderate to severe cognitive impairment. Moreover, OPN was significantly elevated in brain tissue from HIV-infected individuals with cognitive disorder versus those without impairment. Collectively, these data suggest that OPN stimulates HIV-1 replication and that high levels of OPN are present in the CNS compartment of HIV-infected individuals, reflecting ongoing inflammatory processes at this site despite anti-HIV therapy.