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Literature DB >> 28748216

T cells targeting neuromyelitis optica autoantigen aquaporin-4 cause paralysis and visual system injury.

Andrés Cruz-Herranz¹, Sharon A Sagan^1,2, Raymond A Sobel³, Ari J Green¹, Scott S Zamvil^1,2.

Abstract

Aquaporin-4 (AQP4)-specific antibodies are instrumental in promoting central nervous system (CNS) tissue injury in neuromyelitis optica (NMO), yet evidence indicates that AQP4-specific T cells also have a pivotal role in NMO pathogenesis. Although considerable effort has been devoted to creation of animal models to study how AQP4-specific T cells and antibodies may cooperate in development of both clinical and histologic opticospinal inflammatory disease, the initial attempts were unsuccessful. Recently, it was discovered that T cells from AQP4-deficient (AQP4-/-) mice recognize distinct AQP4 epitopes that were not identified previously in wild-type (WT) mice, and that donor Th17 cells from AQP4-/- mice that target those novel epitopes could cause paralysis and visual system injury associated with opticospinal inflammation in WT recipient mice. These observations indicate that the pathogenic AQP4-specific T cell repertoire is normally controlled by negative selection. Here, we describe the advances leading to development of an animal model for aquaporin-targeted CNS autoimmunity (ATCA). This new model provides a foundation to investigate immune mechanisms that may participate in NMO pathogenesis. It should also permit preclinical testing of agents considered for treatment of NMO.

Entities: Chemical Disease Gene Species

Keywords: T cells; aquaporin-4; experimental autoimmune encephalomyelitis; experimental neuromyelitis optica; neuromyelitis optica

Year: 2017 PMID： 28748216 PMCID： PMC5523104

Source DB: PubMed Journal: J Nat Sci ISSN： 2377-2700

23 in total

1. Serologic diagnosis of NMO: a multicenter comparison of aquaporin-4-IgG assays.

Authors: P J Waters; A McKeon; M I Leite; S Rajasekharan; V A Lennon; A Villalobos; J Palace; J N Mandrekar; A Vincent; A Bar-Or; S J Pittock
Journal: Neurology Date: 2012-02-01 Impact factor: 9.910

2. Distribution of the AQP4 water channel in normal human tissues: protein and tissue microarrays reveal expression in several new anatomical locations, including the prostate gland and seminal vesicles.

Authors: Ali Mobasheri; David Marples; Iain S Young; Rachel V Floyd; Christopher A Moskaluk; Antonio Frigeri
Journal: Channels (Austin) Date: 2007 Jan-Feb Impact factor: 2.581

3. Immunodominant T cell determinants of aquaporin-4, the autoantigen associated with neuromyelitis optica.

Authors: Patricia A Nelson; Mojgan Khodadoust; Thomas Prodhomme; Collin Spencer; Juan Carlos Patarroyo; Michel Varrin-Doyer; Joseph D Ho; Robert M Stroud; Scott S Zamvil
Journal: PLoS One Date: 2010-11-30 Impact factor: 3.240

4. Reactivity to myelin antigens in multiple sclerosis. Peripheral blood lymphocytes respond predominantly to myelin oligodendrocyte glycoprotein.

Authors: N Kerlero de Rosbo; R Milo; M B Lees; D Burger; C C Bernard; A Ben-Nun
Journal: J Clin Invest Date: 1993-12 Impact factor: 14.808

5. Neuromyelitis optica: pathogenicity of patient immunoglobulin in vivo.

Authors: Monika Bradl; Tatsuro Misu; Toshiyuki Takahashi; Mitsutoshi Watanabe; Simone Mader; Markus Reindl; Milena Adzemovic; Jan Bauer; Thomas Berger; Kazuo Fujihara; Yasuto Itoyama; Hans Lassmann
Journal: Ann Neurol Date: 2009-11 Impact factor: 10.422

6. Aquaporin 4-specific T cells in neuromyelitis optica exhibit a Th17 bias and recognize Clostridium ABC transporter.

Authors: Michel Varrin-Doyer; Collin M Spencer; Ulf Schulze-Topphoff; Patricia A Nelson; Robert M Stroud; Bruce A C Cree; Scott S Zamvil
Journal: Ann Neurol Date: 2012-07-17 Impact factor: 10.422

7. Pathogenic T cell responses against aquaporin 4.

Authors: Maria Pohl; Marie-Therese Fischer; Simone Mader; Kathrin Schanda; Maja Kitic; Rakhi Sharma; Isabella Wimmer; Tatsuro Misu; Kazuo Fujihara; Markus Reindl; Hans Lassmann; Monika Bradl
Journal: Acta Neuropathol Date: 2011-04-06 Impact factor: 17.088

8. Complement-independent retinal pathology produced by intravitreal injection of neuromyelitis optica immunoglobulin G.

Authors: Christian M Felix; Marc H Levin; Alan S Verkman
Journal: J Neuroinflammation Date: 2016-10-20 Impact factor: 8.322

9. Deletional tolerance prevents AQP4-directed autoimmunity in mice.

Authors: Anna-Lena Vogel; Benjamin Knier; Katja Lammens; Sudhakar Reddy Kalluri; Tanja Kuhlmann; Jeffrey L Bennett; Thomas Korn
Journal: Eur J Immunol Date: 2017-01-25 Impact factor: 5.532

10. Aquaporin 4-specific T cells and NMO-IgG cause primary retinal damage in experimental NMO/SD.

Authors: Bleranda Zeka; Maria Hastermann; Nathalie Kaufmann; Kathrin Schanda; Marko Pende; Tatsuro Misu; Paulus Rommer; Kazuo Fujihara; Ichiro Nakashima; Charlotte Dahle; Fritz Leutmezer; Markus Reindl; Hans Lassmann; Monika Bradl
Journal: Acta Neuropathol Commun Date: 2016-08-08 Impact factor: 7.801

5 in total

Review 1. Emerging therapeutic targets for neuromyelitis optica spectrum disorder.

Authors: Lukmanee Tradtrantip; Nithi Asavapanumas; Alan S Verkman
Journal: Expert Opin Ther Targets Date: 2020-03-02 Impact factor: 6.902

Review 2. Hematopoietic Stem Cell Transplantation in Neuromyelitis Optica-Spectrum Disorders (NMO-SD): State-of-the-Art and Future Perspectives.

Authors: Giulia Ceglie; Laura Papetti; Massimiliano Valeriani; Pietro Merli
Journal: Int J Mol Sci Date: 2020-07-26 Impact factor: 5.923