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Literature DB >> 25444748

Biomarkers for neuromyelitis optica.

Kuo-Hsuan Chang¹, Long-Sun Ro¹, Rong-Kuo Lyu¹, Chiung-Mei Chen².

Abstract

Neuromyelitis optica (NMO) is an acquired, heterogeneous inflammatory disorder, which is characterized by recurrent optic neuritis and longitudinally extensive spinal cord lesions. The discovery of the serum autoantibody marker, anti-aquaporin 4 (anti-AQP4) antibody, revolutionizes our understanding of pathogenesis of NMO. In addition to anti-AQP4 antibody, other biomarkers for NMO are also reported. These candidate biomarkers are particularly involved in T helper (Th)17 and astrocytic damages, which play a critical role in the development of NMO lesions. Among them, IL-6 in the peripheral blood is associated with anti-AQP4 antibody production. Glial fibrillary acidic protein (GFAP) in CSF demonstrates good correlations with clinical severity of NMO relapses. Detecting these useful biomarkers may be useful in the diagnosis and evaluation of disease activity of NMO. Development of compounds targeting these biomarkers may provide novel therapeutic strategies for NMO. This article will review the related biomarker studies in NMO and discuss the potential therapeutics targeting these biomarkers.

Entities: Disease Gene

Keywords: Anti-AQP4 antibody; Astrocytopathy; Biomarker; Neuromyelitis optica; Th17

Mesh：

Substances：

Year: 2014 PMID： 25444748 DOI： 10.1016/j.cca.2014.11.004

Source DB: PubMed Journal: Clin Chim Acta ISSN： 0009-8981 Impact factor: 3.786

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Cited

7 in total

1. Elevation of AQP4 and selective cytokines in experimental autoimmune encephalitis mice provides some potential biomarkers in optic neuritis and demyelinating diseases.

Authors: Li Sun; Huan Weng; Zhenxin Li
Journal: Int J Clin Exp Pathol Date: 2015-12-01

2. Anti-IL-6 Therapies for Neuromyelitis Optica Spectrum Disorders: A Systematic Review of Safety and Efficacy.

Authors: Itay Lotan; Richard McGowan; Michael Levy
Journal: Curr Neuropharmacol Date: 2021 Impact factor: 7.363

Review 3. Immunopathogenesis in Myasthenia Gravis and Neuromyelitis Optica.

Authors: Zhen Wang; Yaping Yan
Journal: Front Immunol Date: 2017-12-12 Impact factor: 7.561

4. Neuromyelitis optica spectrum disorder secondary to treatment with anti-PD-1 antibody nivolumab: the first report.

Authors: Yoshitsugu Narumi; Ryohei Yoshida; Yoshinori Minami; Yasushi Yamamoto; Shiori Takeguchi; Kohei Kano; Kae Takahashi; Tsukasa Saito; Jun Sawada; Hiroya Terui; Takayuki Katayama; Takaaki Sasaki; Yoshinobu Ohsaki
Journal: BMC Cancer Date: 2018-01-24 Impact factor: 4.430

5. Interleukin-6, S-Nitrosothiols, and Neurodegeneration in Different Central Nervous System Demyelinating Disorders: Is There a Relationship?

Authors: Vera Fominykh; Anna Vorobyeva; Mikhail V Onufriev; Lev Brylev; Maria N Zakharova; Natalia V Gulyaeva
Journal: J Clin Neurol Date: 2018-05-31 Impact factor: 3.077

6. Free thyroxine level is associated with both relapse rate and poor neurofunction in first-attack Neuromyelitis Optica Spectrum Disorder (NMOSD) patients.

Authors: Qianyi He; Lifeng Li; Yanfei Li; Yanhui Lu; Kaimin Wu; Ruiyi Zhang; Junfang Teng; Jie Zhao; Yanjie Jia
Journal: BMC Neurol Date: 2019-12-18 Impact factor: 2.474

7. Relationship between the Clinical Characteristics in Patients with Neuromyelitis Optica Spectrum Disorders and Clinical Immune Indicators: A Retrospective Study.

Authors: Linjun Cai; Ziyan Shi; Hongxi Chen; Qin Du; Ying Zhang; Zhengyang Zhao; Jiancheng Wang; Yanling Lang; Lingyao Kong; Hongyu Zhou
Journal: Brain Sci Date: 2022-03-11

7 in total