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Metformin Therapy Attenuates Pro-Inflammatory Microglia by Inhibiting Nf-Κb in Cuprizone Demyelinating Mouse Model of Multiple Sclerosis Publisher Pubmed



Abdi M1 ; Pasbakhsh P1 ; Shabani M2 ; Nekoonam S1 ; Sadeghi A3 ; Fathi F4 ; Abouzaripour M5 ; Mohamed W6, 7 ; Zibara K8 ; Kashani IR1 ; Zendedel A9
Authors
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Authors Affiliations
  1. 1. Department of Anatomy, school of medicine, Tehran University of Medical Sciences, Tehran, Iran
  2. 2. Department of Clinical Biochemistry, Tehran University of Medical Sciences, Tehran, Iran
  3. 3. Department of Clinical Biochemistry, Faculty of medicine, Kerman University of Medical Sciences, Kerman, Iran
  4. 4. Cellular and Molecular Research Center, Kurdistan University of Medical Sciences, Sanandaj, Iran
  5. 5. Department of Anatomy, Kurdistan University of Medical Sciences, Sanandaj, Iran
  6. 6. Basic Medical Science Department, International Islamic University Malaysia, Pahang, Malaysia
  7. 7. Clinical Pharmacology Department, Menoufia Medical School, Menoufia University, Shebin El Kom, Egypt
  8. 8. PRASE and Biology Department, Faculty of Sciences-I, Lebanese University, Beirut, Lebanon
  9. 9. Institute of Neuroanatomy, RWTH University Hospital Aachen, Aachen, Germany

Source: Neurotoxicity Research Published:2021


Abstract

Multiple sclerosis (MS) is a chronic disorder characterized by reactive gliosis, inflammation, and demyelination. Microglia plays a crucial role in the pathogenesis of MS and has the dynamic plasticity to polarize between pro-inflammatory (M1) and anti-inflammatory (M2) phenotypes. Metformin, a glucose-lowering drug, attenuates inflammatory responses by activating adenosine monophosphate protein kinase (AMPK) which suppresses nuclear factor kappa B (NF-κB). In this study, we indirectly investigated whether metformin therapy would regulate microglia activity in the cuprizone (CPZ)-induced demyelination mouse model of MS via measuring the markers associated with pro- and anti-inflammatory microglia. Evaluation of myelin by luxol fast blue staining revealed that metformin treatment (CPZ + Met) diminished demyelination, in comparison to CPZ mice. In addition, metformin therapy significantly alleviated reactive microgliosis and astrogliosis in the corpus callosum, as measured by Iba-1 and GFAP staining. Moreover, metformin treatment significantly downregulated the expression of pro-inflammatory associated genes (iNOS, H2-Aa, and TNF-α) in the corpus callosum, whereas expression of anti-inflammatory markers (Arg1, Mrc1, and IL10) was not promoted, compared to CPZ mice. Furthermore, protein levels of iNOS (pro-inflammatory marker) were significantly decreased in the metformin group, while those of Trem2 (anti-inflammatory marker) were increased. In addition, metformin significantly increased AMPK activation in CPZ mice. Finally, metformin administration significantly reduced the activation level of NF-κB in CPZ mice. In summary, our data revealed that metformin attenuated pro-inflammatory microglia markers through suppressing NF-κB activity. The positive effects of metformin on microglia and remyelination suggest that it could be used as a promising candidate to lessen the incidence of inflammatory neurodegenerative diseases such as MS. © 2021, The Author(s), under exclusive licence to Springer Science+Business Media, LLC, part of Springer Nature.
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