Steven Vernino

Autoantibodies to Ganglionic Acetylcholine Receptors in Autoimmune Autonomic Neuropathies

BACKGROUND Idiopathic autonomic neuropathy is a severe, subacute disorder with a presumed autoimmune basis. It is indistinguishable from the subacute autonomic neuropathy that may accompany lung cancer or other tumors. Autoantibodies specific for nicotinic acetylcholine receptors in the autonomic ganglia are potentially pathogenic and may serve as serologic markers of various forms of autoimmune autonomic neuropathy. METHODS We tested serum from 157 patients with a variety of types of dysautonomia. Immunoprecipitation assays with iodine-125-labeled epibatidine and solubilized human neuroblastoma acetylcholine receptors were used to detect autoantibodies that bound to or blocked ganglionic receptors. RESULTS Ganglionic-receptor-binding antibodies were found in 19 of 46 patients with idiopathic or paraneoplastic autonomic neuropathy (41 percent), in 6 of 67 patients with postural tachycardia syndrome, idiopathic gastrointestinal dysmotility, or diabetic autonomic neuropathy (9 percent), and in none of 44 patients with other autonomic disorders. High levels of the binding antibodies correlated with more severe autonomic dysfunction (including the presence of tonic pupils). Levels of these antibodies decreased in patients who had clinical improvement. All seven patients with ganglionic-receptor-blocking antibodies had ganglionic-receptor-binding antibodies and had idiopathic or paraneoplastic autonomic neuropathy. CONCLUSIONS Seropositivity for antibodies that bind to or block ganglionic acetylcholine receptors identifies patients with various forms of autoimmune autonomic neuropathy and distinguishes these disorders from other types of dysautonomia. The positive correlation between high levels of ganglionic-receptor antibodies and the severity of autonomic dysfunction suggests that the antibodies have a pathogenic role in these types of neuropathy.

Calcium modulation and high calcium permeability of neuronal nicotinic acetylcholine receptors

Two properties were found to distinguish neuronal from muscle nicotinic acetylcholine receptors (nAChRs). First, neuronal nAChRs have a greater Ca2+ permeability. The high Ca2+ flux through neuronal nAChRs activates a Ca(2+)-dependent Cl- conductance, and the Ca2+ to Cs+ permeability ratio (PCa/PCs) is 7 times greater for neuronal than for muscle nAChRs. A second difference between the receptor types is that neuronal nAChRs are potently modulated by physiological levels of external Ca2+. Neuronal nAChR currents are enhanced by external Ca2+ in a dose-dependent manner. The results indicate that changes in extracellular Ca2+ modulate neuronal nAChRs and may modulate cholinergic synapses in the CNS. Also, activation of neuronal nAChRs produces a significant influx of Ca2+ that could be an important intracellular signal.

Potentially reversible autoimmune limbic encephalitis with neuronal potassium channel antibody

Objectives: To describe the clinical features and coexisting serum autoantibodies in seven patients with encephalitis associated with autoantibodies to α-dendrotoxin-sensitive voltage-gated potassium channels (VGKCs), and to compare this disorder with other autoimmune encephalopathies. Methods: Clinical information was obtained from a retrospective review of medical records and telephone interviews. All autoantibody testing was performed in a single laboratory. Results: The seven patients were examined for subacute cognitive and behavioral changes. Seizures, usually temporal-onset complex partial type, were documented in six patients, and all seven patients had EEG abnormalities. None had symptoms or signs of neuromuscular hyperexcitability. One described hypersalivation. Four patients had additional autoantibody markers of neurologic autoimmunity (muscle acetylcholine receptor, striational, P/Q-type calcium channel, or GAD65), and two had thyroperoxidase antibodies. Two patients had a history of cancer: one had active prostate adenocarcinoma, and the second had a remote history of tongue carcinoma. Cranial MRI demonstrated mesial temporal lobe abnormalities in all patients. One patient improved spontaneously, and six were treated with IV methylprednisolone. Three improved remarkably with treatment. At follow-up evaluation, one had no cognitive deficits, four had mild persistent short-term memory dysfunction, and two had persistent disabling behavioral deficits. Conclusions: Voltage-gated potassium channel antibodies are a valuable serologic marker of a potentially reversible autoimmune encephalopathy. The neurologic manifestations of this disorder are indistinguishable from paraneoplastic limbic encephalitis but are distinct from Morvan syndrome and Hashimoto encephalopathy.

Clinical, Magnetic Resonance Imaging, and Electroencephalographic Findings in Paraneoplastic Limbic Encephalitis

OBJECTIVE To analyze clinical presentation of and paraclinical test abnormalities in patients with paraneoplastic limbic encephalitis (PLE). PATIENTS AND METHODS We retrospectively reviewed 24 patients seen at the Mayo Clinic in Rochester, Minn, between 1985 and 2002 in whom PLE was suspected. Patients were identified on the basis of clinical history and presence of cancer. Data were reviewed from magnetic resonance imaging (MRI), cerebrospinal fluid (CSF) analysis, electroencephalography (EEG), and paraneoplastic serologic studies. RESULTS Common manifestations were cognitive dysfunction (92%), seizures (58%), and psychiatric symptoms (50%); 13 patients had small cell lung carcinoma; 11 had other malignancies. Paraneoplastic neuronal autoantibodies were found in 14 (64%) of 22 patients tested. Electroencephalography showed focal or generalized slowing and/or epileptiform activity, maximal in the temporal regions, in all 22 patients tested. Magnetic resonance imaging revealed increased T2 signal involving one or both temporal lobes in 15 (83%) of 18 patients. Cerebrospinal fluid test results were abnormal in 18 (78%) of 23 patients tested. Clinical or radiographic evidence of extralimbic involvement was documented in 12 (55%) of 22 patients. No abnormality on EEG, MRI, or CSF analysis correlated with a specific cancer type or with a specific paraneoplastic autoantibody. CONCLUSIONS In patients with suspected PLE, EEG is invaluable for confirming cerebral dysfunction. Magnetic resonance imaging can show unequivocal involvement of temporolimbic structures and helps exclude other diagnoses. When EEG and cranial MRI are both normal, PLE is unlikely. Comprehensive testing for paraneoplastic neuronal nuclear, cytoplasmic, and ion channel autoantibodies is an important part of the evaluation, but negative results do not rule out PLE.

Cause-Specific Mortality After First Cerebral Infarction: A Population-Based Study

Background and Purpose— Mortality after cerebral infarction (CI) has remained unchanged during the past 20 years, despite advances in neurologic care. Key factors affecting survival may be underrecognized. The purpose of this study was to determine the rate and cause of mortality after first CI. Methods— In this case-control, population-based study, all available medical records were reviewed for Rochester (Minnesota) residents with a first CI between 1985 and 1989 to identify morbidities and cause of death. Predictors for mortality were analyzed. Results— First CI was recorded for 444 patients. Survival was 83% at 1 month, 71% at 1 year, and 46% at 5 years. The most frequent causes of death were cardiovascular events (22%), respiratory infection (21%), and initial stroke complications (14%). Recurrent stroke and cancer accounted for 9% and 7.5% of deaths, respectively. In the first month after CI, 51% of deaths were attributed to the initial CI, 22% to respiratory infections, and 12% to cardiovascular events. During the first year, 26% of deaths resulted from respiratory infections and 28% from cardiovascular disease. Mortality was higher among patients than controls for at least 2 years after CI. Age, cardiac comorbid conditions, CI severity, stroke recurrence, seizures, and respiratory and cardiovascular morbidities were independent predictors of death. Conclusions— In the first month after CI, mortality resulted predominantly from neurologic complications. Later mortality remained high because of respiratory and cardiovascular causes. To improve long-term survival after CI, aggressive management of pulmonary and cardiac disease is as important as secondary stroke prevention.

The spectrum of autoimmune autonomic neuropathies

We analyzed the clinical characteristics of 18 patients (13 female, 5 male) who had autoimmune autonomic neuropathy (AAN) and ganglionic acetylcholine receptor (AChR) autoantibodies. Mean age was 61.4 years (standard deviation, 12.0 years). Ten patients had subacute symptom onset, six with an antecedent event. Eight patients had chronic AAN, characterized by insidious symptom onset, without antecedent event, and gradual progression. A majority of patients with high antibody values (>1.00 nmol/L) had a combination of sicca complex (marked dry eyes and dry mouth), abnormal pupillary light response, upper gastrointestinal symptoms, and neurogenic bladder. Chronic AAN segregated into two subgroups. One subgroup (N = 4) had low antibody titer (0.09 ± 0.01 nmol/L) and a paucity of cholinergic symptoms. It was indistinguishable from pure autonomic failure. The other subgroup (N = 4) had high antibody titer (11.6 ± 2.08 nmol/L), sicca complex, abnormal pupils, and neurogenic bladder; three had severe upper gastrointestinal dysfunction. Higher antibody titers correlated with greater autonomic dysfunction and more frequent cholinergic dysautonomia. These observations expand the clinical spectrum of AAN to include chronic cases, some being indistinguishable from pure autonomic failure, and support the concept that ganglionic AChR antibodies are important diagnostically and pathophysiologically in acquired dysautonomia.Ann Neurol 2003;53:752–758

Autoantibody profiles and neurological correlations of thymoma

Purpose: Determine muscle and neuronal autoantibody frequencies in patients with thymoma, with and without paraneoplastic neurological accompaniments. Experimental Design: Analysis of IgG autoantibodies in stored serum collected between 1985 and 2003 from 201 patients with histologically diagnosed thymoma (including six with thymic carcinoma). Contemporary assays quantitated antibodies reactive with muscle and neuronal cation channels, muscle sarcomeric proteins and neuronal cytoplasmic, and nuclear proteins. Results: Neurological diagnoses included myasthenia gravis (MG), myositis, encephalitis, neuromuscular hyperexcitability, autonomic neuropathy, and subacute hearing loss, a previously unrecognized accompaniment of thymoma. Muscle acetylcholine receptor (AChR) binding antibodies were found in all patients with a diagnosis of MG. Muscle autoantibodies (AChR-binding, AChR-modulating, or striational) were also found in 59% of patients without any neurological disorder. One or more neuronal autoantibodies were found in 41% of patients without any neurological disorder, 43% of patients with MG only, and 78% of patients with other neurological disorders. Neuronal autoantibody specificities were, in descending order of frequency, as follows: glutamic acid decarboxylase, voltage-gated potassium channel, collapsin response-mediator protein-5, ganglionic AChR, and antineuronal nuclear antibody-type 1 (ANNA-1). Conclusions: Neuronal autoantibodies complement skeletal muscle autoantibodies as serological markers of thymoma in patients with and without clinical evidence of a neurological disorder. The high prevalence of glutamic acid decarboxylase autoantibody, not previously considered a paraneoplastic marker, justifies its consideration as a marker of thymoma-related neurological autoimmunity. Serological evaluation of a patient’s profile of neuronal and muscle autoantibodies may aid in preoperative identification of an indeterminate mediastinal mass.

Immunomodulatory treatment trial for paraneoplastic neurological disorders

Paraneoplastic neurological disorders are devastating remote effects of malignancy. Despite compelling evidence of an autoimmune pathogenesis, empiric immunomodulatory treatment of these disorders is often ineffective. However, very few systematic studies have been conducted, and the treatment of patients without active malignancy has not been addressed. We conducted a prospective open-label treatment study of plasma exchange plus conventional cancer chemotherapy (10 patients) or plasma exchange plus continuous oral cyclophosphamide (10 patients). All patients had progressive symptoms and at least moderate disability at enrollment (mean Rankin score, 3.4). Patients who had experienced symptoms for more than 12 months were excluded (mean duration of symptoms at enrollment, 3.6 months). The primary outcome measure was change in quantitative disability measures (Rankin and Barthel scores) after 6 months of treatment; a positive response was defined as stability or improvement in disability. Overall, 50% of patients had a positive response at 6 months (6 patients had improved by at least 1 Rankin grade). Patients with good outcome tended to be those with less disability at time of enrollment. Hematologic toxicity was common among those receiving cyclophosphamide. Aggressive immunosuppression early in the clinical course should be considered in patients who have paraneoplastic neurological disorders, even when there is no evidence of active malignancy.

Immunization with neuronal nicotinic acetylcholine receptor induces neurological autoimmune disease.

Neuronal nicotinic AChRs (nAChRs) are implicated in the pathogenesis of diverse neurological disorders and in the regulation of small-cell lung carcinoma growth. Twelve subunits have been identified in vertebrates, and mutations of one are recognized in a rare form of human epilepsy. Mice with genetically manipulated neuronal nAChR subunits exhibit behavioral or autonomic phenotypes. Here, we report the first model of an acquired neuronal nAChR disorder and evidence for its pertinence to paraneoplastic neurological autoimmunity. Rabbits immunized once with recombinant alpha3 subunit (residues 1-205) develop profound gastrointestinal hypomotility, dilated pupils with impaired light response, and grossly distended bladders. As in patients with idiopathic and paraneoplastic autoimmune autonomic neuropathy, the severity parallels serum levels of ganglionic nAChR autoantibody. Failure of neurotransmission through abdominal sympathetic ganglia, with retention of neuronal viability, confirms that the disorder is a postsynaptic channelopathy. In addition, we found ganglionic nAChR protein in small-cell carcinoma lines, identifying this cancer as a potential initiator of ganglionic nAChR autoimmunity. The data support our hypothesis that immune responses driven by distinct neuronal nAChR subtypes expressed in small-cell carcinomas account for several lung cancer-related paraneoplastic disorders affecting cholinergic systems, including autoimmune autonomic neuropathy, seizures, dementia, and movement disorders.

Paraneoplastic chorea associated with CRMP‐5 neuronal antibody and lung carcinoma

Paraneoplastic chorea is described in 16 patients: 11 with limited small‐cell carcinoma, 2 with lung cancer revealed by imaging, 1 with renal cell carcinoma, and 1 with lymphoma. All had CRMP‐5‐IgG; 6 also had ANNA‐1 (anti‐Hu), including 1 without evident cancer. Chorea was the initial and most prominent symptom in 11 patients, asymmetric or unilateral in 5 patients, and part of a multifocal syndrome in 14 patients. Basal ganglia abnormalities were revealed by magnetic resonance imaging and at autopsy (as perivascular inflammation and microglial activation). Four patients improved with chemotherapy, and 2 improved with intravenous methylprednisolone.