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Life Sciences 7.3 🇦🇺 🇸🇪

Scientists Discover New Cell-Signaling Routes That Could Reshape Drug Delivery

Researchers have identified two previously overlooked mechanisms by which cellular messengers called extracellular vesicles communicate with target cells—without entering them at all. The finding overturns decades of assumptions about how these vesicles work and could unlock more efficient therapeutic designs for treating everything from heart disease to COVID-19.

Originaltitel: Rethinking Extracellular Vesicle Signaling

Abstrakt

Extracellular vesicles mediate intercellular communication through transport of bioactive cargo from producing to recipient cells. Cellular uptake and subsequent cytoplasmic release of internal cargo is often emphasized as the main mechanism of extracellular vesicle-mediated signaling. This article highlights two alternate modes of extracellular vesicle signaling based on surface binding without internalization: 'bind-and-stay', and 'bind-and-leave'. The transient binding of extracellular vesicles to multiple cells, inducing downstream signaling in each, challenges the conventional "one-vesicle-one-cell" model. We provide a forward-looking perspective on the efficiency and effectiveness of extracellular vesicle signaling modes and outline techniques that could be leveraged to study these interactions moving forward. An improved understanding of extracellular vesicle signaling is necessary for advancing fundamental biology and therapeutic development.

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