Peruzzotti-Jametti, L. and Willis, C. M. and Krzak, G. and Hamel, R. and Pirvan, L. and Ionescu, R.-B. and Reisz, J. A. and Prag, H. A. and Garcia-Segura, M. E. and Wu, V. and Xiang, Y. and Barlas, B. and Casey, A. M. and van den Bosch, A. M. R. and Nicaise, A. M. and Roth, L. and Bates, G. R. and Huang, H. and Prasad, P. and Vincent, A. E. and Frezza, C. and Viscomi, C. and Balmus, G. and Takats, Z. and Marioni, J. C. and D’Alessandro, A. and Murphy, M. P. and Mohorianu, I. and Pluchino, S. (2024) Mitochondrial complex I activity in microglia sustains neuroinflammation. Nature. ISSN 0028-0836
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Abstract
Sustained smouldering, or low-grade activation, of myeloid cells is a common hallmark of several chronic neurological diseases, including multiple sclerosis1. Distinct metabolic and mitochondrial features guide the activation and the diverse functional states of myeloid cells. However, how these metabolic features act to perpetuate inflammation of the central nervous system is unclear. Here, using a multiomics approach, we identify a molecular signature that sustains the activation of microglia through mitochondrial complex I activity driving reverse electron transport and the production of reactive oxygen species. Mechanistically, blocking complex I in pro-inflammatory microglia protects the central nervous system against neurotoxic damage and improves functional outcomes in an animal disease model in vivo. Complex I activity in microglia is a potential therapeutic target to foster neuroprotection in chronic inflammatory disorders of the central nervous system3.
Item Type: | Article |
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Subjects: | Open Archive Press > Multidisciplinary |
Depositing User: | Unnamed user with email support@openarchivepress.com |
Date Deposited: | 21 Mar 2024 07:09 |
Last Modified: | 21 Mar 2024 07:09 |
URI: | http://library.2pressrelease.co.in/id/eprint/1898 |