Zika virus (ZIKV) is a flavivirus of significant epidemiological importance, utilizing various transmission strategies and infecting "immune privileged tissues" during both the pre- and postnatal periods. One such transmission method may involve extracellular vesicles (EVs). EVs can travel long distances without degrading, carrying complex messages that trigger different responses in recipient cells. They can easily cross specialized tissue barriers, such as the placental barrier and the blood-brain barrier, which protects the central nervous system. It is known that some viruses can hijack and exploit the EVs biogenesis machinery to package regulatory elements, viral segments, and even complete viral genomes. This allows them to evade the immune system, amplify their tropism, and enhance their spread. ZIKV likely uses EVs produced by infected cells to insert its genomic RNA or parts of it. This mechanism can ensure viral entry and infection of the nervous tissue, partly explaining its broad viral tropism and silent persistence in various tissues and organs for months. This narrative review summarizes the main features of ZIKV and EVs, highlighting the most recent evidence on the involvement and effects of EVs during ZIKV infection. It also discusses the possibility of EVs acting as carriers of ZIKV through the nervous tissue.
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