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Role of Extracellular Vesicle-Carried Ncrnas in the Interactive ‘Dialogue’ Within the Brain and Beyond: Emerging Theranostic Epigenetic Modifiers in Brain-Derived Nanoplatforms Publisher



N Sanadgol NIMA ; P Mousavi PEGAH ; F Sadri FATEMEH ; C Voelz CLARA ; M Scheld MIRIAM ; R Khalseh ROGHAYEH ; J Amini JAVAD ; E Karimi ELHAM ; A Rahi AMID ; Mr Sepand Mohammad REZA
Authors

Source: Translational Neurodegeneration Published:2025


Abstract

Proper brain function and overall health critically rely on the bidirectional communications among cells in the central nervous system and between the brain and other organs. These interactions are widely acknowledged to be facilitated by various bioactive molecules present in the extracellular space and biological fluids. Extracellular vesicles (EVs) are an important source of the human neurosecretome and have emerged as a novel mechanism for intercellular communication. They act as mediators, transferring active biomolecules between cells. The fine-tuning of intracellular trafficking processes is crucial for generating EVs, which can significantly vary in composition and content, ultimately influencing their fate and function. Increasing interest in the role of EVs in the nervous system homeostasis has spurred greater efforts to gain a deeper understanding of their biology. This review aims to provide a comprehensive comparison of brain-derived small EVs based on their epigenetic cargo, highlighting the importance of EV-encapsulated non-coding RNAs (ncRNAs) in the intercellular communication in the brain. We comprehensively summarize experimentally confirmed ncRNAs within small EVs derived from neurons, astrocytes, microglia, and oligodendrocytes across various neuropathological conditions. Finally, through in-silico analysis, we present potential targets (mRNAs and miRNAs), hub genes, and cellular pathways for these ncRNAs, representing their probable effects after delivery to recipient cells. In summary, we provide a detailed and integrated view of the epigenetic landscape of brain-derived small EVs, emphasizing the importance of ncRNAs in brain intercellular communication and pathology, while also offering prognostic insights for future research directions. © 2025 Elsevier B.V., All rights reserved.
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