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Insights into the Critical Role of Exosomes in the Brain; from Neuronal Activity to Therapeutic Effects.

Morteza HeidarzadehEmel SokulluSepideh SaghatiMohammad KarimipourReza Rahbarghazi
Published in: Molecular neurobiology (2022)
Exo are natural nano-sized vesicles with an endosomal origin that maintain cell-to-cell communications in a paracrine manner. Owing to their physicochemical properties, Exo transfer various types of bioactive metabolites from origin cells to the recipient cells, resulting in induction/inhibition of specific signaling pathways. Like different tissues, Exo are indispensable for the function of neural cells inside the brain parenchyma. Various aspects such as neurogenesis, microglial polarization, and angiogenesis are closely associated with the reciprocal interchanges of Exo between cells in a tightly regulated manner. Similar to physiological conditions, these particles can affect the progression of inflammatory responses following the onset of pathologies. The existence of several uptake exosomal mechanisms, such as receptor-mediated endocytosis, and high penetration capacity into the deep layers of the brain makes Exo promising bio-shuttles for the alleviation of pathological conditions. Like astrocytes, stem cells can release Exo into the surrounding niche with neuroprotective properties regenerative potential. Whether and how Exo can initiate the essential signals required for neurogenesis has not been fully understood. In this review, we will try to elaborate on the putative therapeutic role of Exo in the dynamic activity of neuronal cells.
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