Clozapine Regulates Microglia and Is Effective in Chronic Experimental Autoimmune Encephalomyelitis

Progressive multiple sclerosis is characterized by chronic inflammation with microglial activation, oxidative stress, accumulation of iron and continuous neurodegeneration with inadequate effectiveness of medications used so far. We now investigated effects of iron on microglia and used the previous...

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Bibliographic Details
Published in:Frontiers in immunology 2021-05, Vol.12, p.656941-656941
Main Authors: Ceylan, Ulaş, Haupeltshofer, Steffen, Kämper, Laura, Dann, Justus, Ambrosius, Björn, Gold, Ralf, Faissner, Simon
Format: Article
Language:English
Subjects:
clozapine
EAE (experimental autoimmune encephalomyelitis)
Immunology
iron
microglia
neuroprotection
progressive multiple sclerosis
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Summary:Progressive multiple sclerosis is characterized by chronic inflammation with microglial activation, oxidative stress, accumulation of iron and continuous neurodegeneration with inadequate effectiveness of medications used so far. We now investigated effects of iron on microglia and used the previously identified neuroprotective antipsychotic clozapine and in chronic experimental autoimmune encephalomyelitis (EAE). Microglia were treated with iron and clozapine followed by analysis of cell death and response to oxidative stress, cytokine release and neuronal phagocytosis. Clozapine was investigated in chronic EAE regarding optimal dosing and therapeutic effectiveness in different treatment paradigms. Animals were scored clinically by blinded raters. Spinal cords were analyzed histologically for inflammation, demyelination, microglial activation and iron accumulation and for transcription changes of regulators of iron metabolism and inflammation. Effects on immune cells were analyzed using flow cytometry. Iron impaired microglial function regarding phagocytosis and markers of inflammation; this was regulated by clozapine, reflected in reduced release of IL-6 and normalization of neuronal phagocytosis. In chronic EAE, clozapine dose-dependently attenuated clinical signs and still had an effect if applied in a therapeutic setting. Early mild sedative effects habituated over time. Histologically, demyelination was reduced by clozapine and positive effects on inflammation strongly correlated with reduced iron deposition. This was accompanied by reduced expression of DMT-1, an iron transport protein. Clozapine regulates microglial function and attenuates chronic EAE, even in a therapeutic treatment paradigm. This well-defined generic medication might therefore be considered as promising add-on therapeutic for further development in progressive MS.
ISSN:1664-3224
1664-3224
DOI:10.3389/fimmu.2021.656941