TY - JOUR
T1 - Serum antibodies in epilepsy and seizure-associated disorders
AU - McKnight, K.
AU - Jiang, Y.
AU - Hart, Y.
AU - Cavey, A.
AU - Wroe, S.
AU - Blank, M.
AU - Shoenfeld, Y.
AU - Vincent, A.
AU - Palace, J.
AU - Lang, B.
PY - 2005/12
Y1 - 2005/12
N2 - Objective: To investigate whether autoantibodies to ion channels and other neural antigens are present in the sera of patients with epilepsy and seizure-related diseases. Methods: Sera were obtained from 139 patients, including 26 with preexisting autoimmune disease, 46 in whom an autoimmune basis was suspected, and 67 with drug-resistant epilepsy. The sera were assayed for antibodies to voltage-gated potassium (VGKC) and calcium (VGCC) channels, glutamic acid decarboxylase (GAD), gangliosides, glutamate receptor type 3, cardiolipins, DNA, and nuclear antigens; the results were compared with results from a large cohort of healthy and disease controls. Results: Increased titers of VGKC antibodies (>100 pM) were detected in 16 of 139 (11%) patients with seizures but only 1 control (0.5%). Eight VGKC-positive patients presented with an acute/subacute illness, and 5 of these had the highest VGKC antibodies; 3 patients improved spontaneously, another 5 patients responded well to immunomodulatory therapy. The other VGKC-positive patients had longer disease duration (>6 years) and intermediate levels of antibodies; immunotherapies have not been tested in this group. Very high levels of GAD antibodies (>1,000 U) were found in an additional 3 patients (2.1%) with long-standing drug-resistant epilepsy. Conclusions: The presence of autoantibodies to voltage-gated potassium channels and glutamic acid decarboxylase suggests that the immune system may contribute to certain forms of epilepsy or seizure-associated disorders. Further studies are needed to determine whether the antibodies are pathogenic.
AB - Objective: To investigate whether autoantibodies to ion channels and other neural antigens are present in the sera of patients with epilepsy and seizure-related diseases. Methods: Sera were obtained from 139 patients, including 26 with preexisting autoimmune disease, 46 in whom an autoimmune basis was suspected, and 67 with drug-resistant epilepsy. The sera were assayed for antibodies to voltage-gated potassium (VGKC) and calcium (VGCC) channels, glutamic acid decarboxylase (GAD), gangliosides, glutamate receptor type 3, cardiolipins, DNA, and nuclear antigens; the results were compared with results from a large cohort of healthy and disease controls. Results: Increased titers of VGKC antibodies (>100 pM) were detected in 16 of 139 (11%) patients with seizures but only 1 control (0.5%). Eight VGKC-positive patients presented with an acute/subacute illness, and 5 of these had the highest VGKC antibodies; 3 patients improved spontaneously, another 5 patients responded well to immunomodulatory therapy. The other VGKC-positive patients had longer disease duration (>6 years) and intermediate levels of antibodies; immunotherapies have not been tested in this group. Very high levels of GAD antibodies (>1,000 U) were found in an additional 3 patients (2.1%) with long-standing drug-resistant epilepsy. Conclusions: The presence of autoantibodies to voltage-gated potassium channels and glutamic acid decarboxylase suggests that the immune system may contribute to certain forms of epilepsy or seizure-associated disorders. Further studies are needed to determine whether the antibodies are pathogenic.
UR - http://www.scopus.com/inward/record.url?scp=33645053556&partnerID=8YFLogxK
U2 - 10.1212/01.wnl.0000187129.66353.13
DO - 10.1212/01.wnl.0000187129.66353.13
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AN - SCOPUS:33645053556
SN - 0028-3878
VL - 65
SP - 1730
EP - 1736
JO - Neurology
JF - Neurology
IS - 11
ER -