Amy Quek

Insights From LGI1 and CASPR2 Potassium Channel Complex Autoantibody Subtyping

OBJECTIVE To determine, in patients identified as seropositive for neuronal voltage-gated potassium channel (VGKC) complex autoantibodies, the spectrum of clinical presentations and frequency of leucine-rich glioma-inactivated protein 1 (LGI1) and contactin-associated protein-like 2 (CASPR2) as defined antigenic neuronal targets in the VGKC macromolecular complex. DESIGN Retrospective cohort study. SETTING Clinical practice, Mayo Clinic Neuroimmunology Laboratory and Department of Neurology. PATIENTS A total of 54 853 patients were evaluated, of whom 1992 were found to be VGKC complex IgG positive. RESULTS From June 1, 2008, to June 30, 2010, comprehensive service serologic evaluation performed on 54853 patients with unexplained neurologic symptoms identified 1992 patients (4%) who were positive for VGKC complex IgG (values ≥ 0.03 nmol/L). Among 316 seropositive patients evaluated clinically at our institution, 82 (26%) were seropositive for LGI1 IgG and/or CASPR2 IgG. Of these 82 patients, 27% had low (0.03-0.09 nmol/L), 51% had medium (0.10-0.99 nmol/L), and 22% had high (≥ 1.00 nmol/L) VGKC complex IgG values. Leucine-rich glioma-inactivated protein 1 IgG positivity was associated with higher VGKC complex IgG values (P< .001) and cortical presentations (P< .001); CASPR2 IgG was associated with peripheral motor excitability (P= .009). However, neither autoantibody was pathognomonic for a specific neurologic presentation or correlated significantly with cancer. Neurologic phenotypes were diverse. Cerebrocortical manifestations (including cognitive impairment and seizures) were recorded in 76% of patients with LGI1 IgG alone (n=46) and 29% with CASPR2 IgG alone (n=28). Peripheral motor hyperexcitability was found in 21% of patients with CASPR2 IgG alone and 6.5% of patients with LGI1 IgG alone. CONCLUSIONS The study emphasizes diverse and overlapping neurologic phenotypes across a range of VGKC complex IgG values and varying LGI1 IgG and CASPR2 IgG specificities. The frequent occurrence of LGI1 IgG and CASPR2 IgG in serum samples with low and medium VGKC complex IgG values supports the clinical significance of low values in clinical evaluation. Additional antigenic components of VGKC macromolecular complexes remain to be defined.

Updated estimate of AQP4-IgG serostatus and disability outcome in neuromyelitis optica

Objective: To 1) determine, using contemporary recombinant antigen–based assays, the aquaporin-4 (AQP4)–immunoglobulin G (IgG) detection rate in sequential sera of patients assigned a clinical diagnosis of neuromyelitis optica (NMO) but initially scored negative by tissue-based indirect immunofluorescence (IIF) assay; and 2) evaluate the impact of serostatus on phenotype and outcome. Methods: From Mayo Clinic records (2005–2011), we identified 163 patients with NMO; 110 (67%) were seropositive by IIF and 53 (33%) were scored seronegative. Available stored sera from 49 “seronegative” patients were tested by ELISA, AQP4-transfected cell-based assay, and in-house fluorescence-activated cell sorting assay. Clinical characteristics were compared based on final serostatus. Results: Thirty of the 49 IIF-negative patients (61%) were reclassified as seropositive, yielding an overall AQP4-IgG seropositivity rate of 88% (i.e., 12% seronegative). The fluorescence-activated cell sorting assay improved the detection rate to 87%, cell-based assay to 84%, and ELISA to 79%. The sex ratio (female to male) was 1:1 for seronegatives and 9:1 for seropositives (p < 0.0001). Simultaneous optic neuritis and transverse myelitis as onset attack type (i.e., within 30 days of each other) occurred in 32% of seronegatives and in 3.6% of seropositives (p < 0.0001). Relapse rate, disability outcome, and other clinical characteristics did not differ significantly. Conclusions: Serological tests using recombinant AQP4 antigen are significantly more sensitive than tissue-based IIF for detecting AQP4-IgG. Testing should precede immunotherapy; if negative, later-drawn specimens should be tested. AQP4-IgG–seronegative NMO is less frequent than previously reported and is clinically similar to AQP4-IgG–seropositive NMO.

Utility of an immunotherapy trial in evaluating patients with presumed autoimmune epilepsy.

Objective: To evaluate a trial of immunotherapy as an aid to diagnosis in suspected autoimmune epilepsy. Method: We reviewed the charts of 110 patients seen at our autoimmune neurology clinic with seizures as a chief complaint. Twenty-nine patients met the following inclusion criteria: (1) autoimmune epilepsy suspected based on the presence of ≥1 neural autoantibody (n = 23), personal or family history or physical stigmata of autoimmunity, and frequent or medically intractable seizures; and (2) initiated a 6- to 12-week trial of IV methylprednisolone (IVMP), IV immune globulin (IVIg), or both. Patients were defined as responders if there was a 50% or greater reduction in seizure frequency. Results: Eighteen patients (62%) responded, of whom 10 (34%) became seizure-free; 52% improved with the first agent. Of those receiving a second agent after not responding to the first, 43% improved. A favorable response correlated with shorter interval between symptom onset and treatment initiation (median 9.5 vs 22 months; p = 0.048). Responders included 14/16 (87.5%) patients with antibodies to plasma membrane antigens, 2/6 (33%) patients seropositive for glutamic acid decarboxylase 65 antibodies, and 2/6 (33%) patients without detectable antibodies. Of 13 responders followed for more than 6 months after initiating long-term oral immunosuppression, response was sustained in 11 (85%). Conclusions: These retrospective findings justify consideration of a trial of immunotherapy in patients with suspected autoimmune epilepsy. Classification of evidence: This study provides Class IV evidence that in patients with suspected autoimmune epilepsy, IVMP, IVIg, or both improve seizure control.

Effects of Age and Sex on Aquaporin-4 Autoimmunity

OBJECTIVE To determine the sex and age distribution of aquaporin-4 (AQP4) autoimmunity using data derived from clinical service laboratory testing of 56,464 patient samples. DESIGN Observational analysis. SETTING Mayo Clinic Neuroimmunology Laboratory. PATIENTS Between October 1, 2005, and January 4, 2011, 56,464 patients were tested for AQP4-IgG; 2960 (5.2%) patients were seropositive. MAIN OUTCOME MEASURE Seropositivity for AQP4-IgG. RESULTS Patients seropositive for AQP4-IgG were older than seronegative patients (mean [SD] age, 46 [16] vs 42 [15] years, respectively; P < .001). More females than males were tested (37,662 vs 16,810, respectively; P < .001). Among 2743 seropositive patients, 146 (5.3%) were pediatric (aged ≤18 years) and 333 (12.1%) were elderly (aged ≥65 years). The sex distribution of seropositive patients was 2465 females and 306 males (absolute female:male ratio, 8.1:1; P < .001). After adjusting for the number of females tested, an excess of females persisted (adjusted female:male ratio, 3.6:1). Female predominance for AQP4-IgG was more striking in adults (absolute female:male ratio, 8.4:1; adjusted female:male ratio, 3.5:1) than in pediatric patients (absolute female:male ratio, 4.3:1; adjusted female:male ratio, 2.9:1) (P < .001). Elderly women were more likely to be seropositive than individuals in other age categories (13.1% vs 6.0%, respectively; P < .001). The proportion of AQP4-IgG-seropositive individuals (detection rate), defined by decade of age, increased exponentially in women after age 50 years. CONCLUSIONS Seropositivity for AQP4-IgG occurs predominantly in females, particularly in individuals older than 18 years. Among seropositive patients, 1 in 6 is in the extremes of age. The detection rate of AQP4-IgG increased in women after age 50 years.

Paraneoplastic and autoimmune encephalopathies.

Immune-mediated encephalitis is an increasingly recognized cause of neurologic dysfunction including behavioral change, psychosis, movement disorders, seizures, autonomic instability, and coma. Associated antineuronal antibodies are of two main subtypes, those targeting neuronal cell surface antigens, which are pathogenic, and nonpathogenic antibodies targeting intracellular antigens. Antibody identification aids in screening for underlying cancers and prediction of outcome. Cancer is found most commonly with antibodies targeting intracellular neural components. Certain cancers, such as small-cell lung carcinoma, and breast and ovarian cancer are particularly immunogenic. When cancer is detected, oncologic treatment should be followed with immunotherapy. Nonpathogenic antibody disorders respond poorly to treatment, whereas pathogenic antibodies predict a favorable response to immune treatment. If no cancer is identified, then ongoing surveillance is recommended for 5 years after detection of most antineuronal antibodies.

Encephalitis associated with autoantibodies binding to g-aminobutyric acid-A, g-aminobutyric acid-B and glycine receptors: immunopathogenic mechanisms and clinical characteristics

Amy May Lin Quek1,2, Orna O’Toole3 1Department of Medicine, National University Hospital, National University Health System, Singapore 119228, Singapore. 2Department of Medicine, Yong Loo Lin School of Medicine, National University of Singapore, Singapore 119228, Singapore. 3Department of Neurology, Mercy University Hospital, Grenville Place, Cork, Ireland. Recent, discoveries of neural antibodies have facilitated the diagnosis of immune‐mediated, immunotherapy‐responsive neurologic disorders. Antibodies that target inhibitory central nervous system receptors, such as γ‐aminobutyric acid‐B, γ‐aminobutyric acid‐A, and glycine receptors, disrupt inhibitory regulatory synaptic functions, and lead to neuronal hyperexcitability. The myriad of neurologic, manifestations associated with these antibodies includes seizures, encephalopathy, muscle rigidity and stiffness. This article provides a review of the immunopathogenic mechanisms and the clinical and therapeutic implications of autoimmune encephalitis associated with these antibodies that target inhibitory receptors.