We report 2 patients with a treatable, immune-mediated motor polyneuropathy associated with antibodies to defined neural antigens. In these patients asymmetrical weakness developed in one arm and progressed over 2 to 3 years to involve the other arm, legs, and trunk. Both patients were initially diagnosed as having lower motor neuron forms of amyotrophic lateral sclerosis. However, repeated electrophysiological testing eventually showed multifocal conduction blocks in motor but not sensory fibers compatible with patchy selective demyelination. Serum testing by thin-layer chromatography and enzyme-linked immunosorbent assay revealed that both patients had high titers of antibody directed against GM1 and other gangliosides. Initial therapeutic trials of prednisone (100 mg daily for 4 to 6 months) and plasmapheresis were unsuccessful. Treatment with cyclophosphamide, however, was followed by marked improvement in strength in both patients.
The decrease of acetylcholine receptors at neuromuscular junctions of myasthenic patients has been attributed to an antibody-mediated autoimmune process that accelerates receptor degradation. We studied the mechanism of this process in skeletal-muscle cultures, using intact antibodies and antibody fragments. Addition of myasthenic IgG or its divalent fragment, F(ab')2, to cultures accelerated the rate of acetylcholine-receptor degradation threefold. By contrast, the monovalent fragment, Fab, from myasthenic serum had no effect on degradation, although it bound to acetylcholine receptors. Addition of a second, "piggyback" antibody to cross-link the Fab:receptor complexes resulted in a threefold increase of the degradation rate. Similarly, when acetylcholine receptors with bound alpha-bungarotoxin were cross-linked by the addition of specific antibody against alpha-bungarotoxin, the degradation rate increased approximately threefold. The effect of myasthenic patients' antibodies in accelerating degradation of acetylcholine receptors is attributed to their ability to cross-link the receptors.
The pathogenesis of myasthenia gravis involves a humorally mediated autoimmune attack directed against acetylcholine receptors of skeletal muscles. Antibodies against acetylcholine receptors are detected in the serum of more than 80 per cent of patients, but the antibody titers correspond poorly with the severity of disease. To distinguish between antibody titers and antibody activity, we measured the ability of serum immunoglobulin from 49 patients to induce accelerated degradation or blockade of the binding sites of acetylcholine receptors, using a mammalian skeletal-muscle tissue-culture system. Immunoglobulin from 41 of 45 patients tested (91 per cent) increased the rate of degradation of acetylcholine receptors, and the relative increase in the degradation rate corresponded closely (P less than 0.001) with clinical status. Immunoglobulin from 42 of 48 patients tested (88 per cent) produced blockade of receptors, and the extent of the blockade also corresponded with clinical status (P less than 0.001). An index of the combined activities of the immunoglobulin in accelerating degradation and producing blockade of acetylcholine receptors was elevated in 43 of 44 patients (98 per cent) whose immunoglobulins were tested for both activities; this index predicted the patients' clinical status significantly better (P less than 0.001) than either measure alone. This finding suggests that the functional ability of antibodies to decrease the number of available acetylcholine receptors by these two mechanisms is clinically relevant in the pathogenesis of myasthenia gravis.
The glutamine antagonist 6-diazo-5-oxo-l-norleucine (DON, 1) has shown robust anticancer efficacy in preclinical and clinical studies, but its development was halted due to marked systemic toxicities. Herein we demonstrate that DON inhibits glutamine metabolism and provides antitumor efficacy in a murine model of glioblastoma, although toxicity was observed. To enhance DON's therapeutic index, we utilized a prodrug strategy to increase its brain delivery and limit systemic exposure. Unexpectedly, simple alkyl ester-based prodrugs were ineffective due to chemical instability cyclizing to form a unique diazo-imine. However, masking both DON's amine and carboxylate functionalities imparted sufficient chemical stability for biological testing. While these dual moiety prodrugs exhibited rapid metabolism in mouse plasma, several provided excellent stability in monkey and human plasma. The most stable compound (5c, methyl-POM-DON-isopropyl-ester) was evaluated in monkeys, where it achieved 10-fold enhanced cerebrospinal fluid to plasma ratio versus DON. This strategy may provide a path to DON utilization in glioblastoma multiforme 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.
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.
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 ELISA 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.
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