AI Article Synopsis
- Neuromyelitis optica (NMO)-IgG is a biomarker that helps differentiate NMO-related CNS disorders from multiple sclerosis by targeting aquaporin-4 (AQP4) water channels.
- NMO-IgG may lead to harmful effects on CNS astrocytes, as exposure to patient serum and complement damages their membranes, affecting glutamate transport and overall cell function.
- Evidence suggests that NMO-IgG triggers mechanisms that can contribute to neurodegeneration, including complement activation, down-regulation of AQP4 and EAAT2 proteins, and disrupted glutamate balance.
Article Abstract
Neuromyelitis optica (NMO)-immunoglobulin G (IgG) is a clinically validated serum biomarker that distinguishes relapsing central nervous system (CNS) inflammatory demyelinating disorders related to NMO from multiple sclerosis. This autoantibody targets astrocytic aquaporin-4 (AQP4) water channels. Clinical, radiological, and immunopathological data suggest that NMO-IgG might be pathogenic. Characteristic CNS lesions exhibit selective depletion of AQP4, with and without associated myelin loss; focal vasculocentric deposits of IgG, IgM, and complement; prominent edema; and inflammation. The effect of NMO-IgG on astrocytes has not been studied. In this study, we demonstrate that exposure to NMO patient serum and active complement compromises the membrane integrity of CNS-derived astrocytes. Without complement, astrocytic membranes remain intact, but AQP4 is endocytosed with concomitant loss of Na(+)-dependent glutamate transport and loss of the excitatory amino acid transporter 2 (EAAT2) . Our data suggest that EAAT2 and AQP4 exist in astrocytic membranes as a macromolecular complex. Transport-competent EAAT2 protein is up-regulated in differentiating astrocyte progenitors and in nonneural cells expressing AQP4 transgenically. Marked reduction of EAAT2 in AQP4-deficient regions of NMO patient spinal cord lesions supports our immunocytochemical and immunoprecipitation data. Thus, binding of NMO-IgG to astrocytic AQP4 initiates several potentially neuropathogenic mechanisms: complement activation, AQP4 and EAAT2 down-regulation, and disruption of glutamate homeostasis.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC2571922 | PMC |
| http://dx.doi.org/10.1084/jem.20081241 | DOI Listing |
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