Abstract

Water channels are a newly recognized target for CNS inflammatory autoimmune demyelinating diseases. Neuromyelitis optica (NMO;aka optic spinal multiple sclerosis [MS]) is a devastating disease that disproportionally affects non-Caucasians. It is characterized by recurrent episodes of optic neuritis and transverse myelitis, resulting in blindness and paraplegia in most patients, and it is frequently misdiagnosed as MS. Contrary to traditional teaching, NMO is not rare. It is the first MS-like disease for which a specific antigen has been identified--the astrocytic water channel aquaporin-4 (AQP4). This discovery represents a seismic shift from historic emphasis on the oligodendrocytes and myelin. An autoantibody specific for AQP4 (NMO/AQP4-IgG) is a clinically validated serum biomarker that distinguishes relapsing NMO from MS, which has no distinguishing biomarker and calls for different therapies. We suspect that a significant proportion of patients who are severely disabled (i.e., blind or paraparetic) from presumed MS, particularly African Americans, carry a misdiagnosis and will prove to be NMO/AQP4-IgG seropositive. Despite the high sensitivity and specificity of NMO/AQP4-IgG for NMO, the relationship of serum level to disease severity has not been established. We anticipate that qualitative and quantitative bioassays corresponding to distinctive pathologic outcomes of NMO/AQP4-IgG interacting with AQP4 in living target cells may predict clinical outcome. Our cumulative clinical, therapeutic and immunopathologic observations suggest that NMO patients who test negative for NMO/AQP4-IgG nevertheless have an antibody-mediated disorder. Our preliminary data support the existence of alternative pathogenic NMO-IgGs targeting novel components of the astrocytic AQP4/dystroglycan complex.
We aim to 1) determine the prevalence of NMO/AQP4-IgG in serum of ethnically diverse patient cohorts and store DNA for future use in genetic correlative analyses;2) assess the predictive and prognostic value of immunochemical, functional (complement activation, AQP4 downregulation and coupled glutamate transporter downregulation) and biosensor NMO/AQP4-IgG assays (indicative of antibody concentration and affinity) and 3) search for and validate novel IgG biomarkers (NMO-IgG X1, X2, ...) as the potential basis of NMO in apparently seronegative patients. Knowledge of the frequency of AQP4 autoimmunity, correlation with ethnicity and frequency of MS misdiagnosis will impact health care delivery and economics. Positive correlations of NMO/AQP4-IgG (titer, concentration/affinity and functional in vitro effects) with clinical or radiologic outcomes are anticipated to reveal prognostic antibody profiles as basis for appropriate therapy. Advanced serological interpretive insights, coupled with identification of alternative diagnostic markers (i.e., new NMO-IgGs reactive with AQP4 partner proteins in the dystroglycan complex) may lead to formulation of individual patient-specific NMO therapies.

Public Health Relevance

Antibodies directed at astrocytic water channels (aquaporin-4) in the central nervous system (CNS) represent a new direction in research of a severe inflammatory demyelinating CNS disorder that often results in blindness, confinement to a wheel chair and terminal respiratory failure. This study aims to 1) determine the frequency of autoantibodies targeting aquaporin-4 or its partner proteins and how often this condition is misdiagnosed and mistreated as multiple sclerosis and 2) identify laboratory tests that aid its diagnosis, predict outcome and lead to new therapeutic targets.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Institute of Neurological Disorders and Stroke (NINDS)
Type
Research Project (R01)
Project #
1R01NS065829-01A1
Application #
7879779
Study Section
Clinical Neuroimmunology and Brain Tumors Study Section (CNBT)
Program Officer
Utz, Ursula
Project Start
2010-09-30
Project End
2015-07-31
Budget Start
2010-09-30
Budget End
2011-07-31
Support Year
1
Fiscal Year
2010
Total Cost
$344,969
Indirect Cost

  Institution

Name
Mayo Clinic, Rochester
Department
Type
DUNS #
006471700
City
Rochester
State
MN
Country
United States
Zip Code
55905

  Publications

Murphy, Brittany L; Zalewski, Nicholas L; Degnim, Amy C et al. (2018) Breast cancer-related paraneoplastic neurologic disease. Breast Cancer Res Treat 167:771-778
Alfugham, Nora; Gadoth, Avi; Lennon, Vanda A et al. (2018) ITPR1 autoimmunity: Frequency, neurologic phenotype, and cancer association. Neurol Neuroimmunol Neuroinflamm 5:e418
Dubey, Divyanshu; Pittock, Sean J; Kelly, Cecilia R et al. (2018) Autoimmune encephalitis epidemiology and a comparison to infectious encephalitis. Ann Neurol 83:166-177
Tobin, W Oliver; Pittock, Sean J (2017) Autoimmune Neurology of the Central Nervous System. Continuum (Minneap Minn) 23:627-653
Gadoth, Avi; Singh, Jaysingh; Britton, Jeffrey W et al. (2017) Dacrystic seizures-a cry for help. Neurol Neuroimmunol Neuroinflamm 4:e372
Pittock, Sean J (2016) Demyelinating disease: NMO spectrum disorders: clinical or molecular classification? Nat Rev Neurol 12:129-30
Flanagan, Eoin P; Cabre, Philippe; Weinshenker, Brian G et al. (2016) Epidemiology of aquaporin-4 autoimmunity and neuromyelitis optica spectrum. Ann Neurol 79:775-783
Guerra, Hilda; Pittock, Sean J; Moder, Kevin G et al. (2016) Neuromyelitis optica spectrum initially diagnosed as antiphospholipid antibody myelitis. J Neurol Sci 361:204-5
Pittock, Sean J; Lucchinetti, Claudia F (2016) Neuromyelitis optica and the evolving spectrum of autoimmune aquaporin-4 channelopathies: a decade later. Ann N Y Acad Sci 1366:20-39
Lopez-Chiriboga, A Sebastian; Komorowski, Lars; Kümpfel, Tania et al. (2016) Metabotropic glutamate receptor type 1 autoimmunity: Clinical features and treatment outcomes. Neurology 86:1009-13

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