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Paper detail

TLR-exosomes exhibit distinct kinetics and effector function

The innate immune system is vital to rapidly responding to pathogens and Toll-like receptors (TLRs) are a critical component of this response. Nanovesicular exosomes play a role in immunity, but to date their exact contribution to the dissemination of the TLR response is unknown. Here we show that exosomes from TLR stimulated cells (TLR-exosomes) can largely recapitulate TLR activation in distal cells in vitro. We can abrogate the action-at-a-distance signaling of exosomes by UV irradiation, demonstrating that RNA is crucial for their effector function. We are the first to show that exosomes derived from poly(I:C) stimulated cells induce in vivo macrophage M1-like polarization within murine lymph nodes. These TLR-exosomes demonstrate enhanced trafficking to the node and preferentially recruit neutrophils as compared to control-exosomes. This work definitively establishes the differential effector function for TLR-exosomes in communicating the activation state of the cell of origin.

preprint2016arXivOpen access
Swetha SrinivasanMichelle SuShashidhar RavishankarJames MoorePamelaSara E HeadJ. Brandon DixonFredrik O Vannberg
Cell BehaviorTissues and Organs
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Swetha SrinivasanMichelle SuShashidhar RavishankarJames MoorePamelaSara E HeadJ. Brandon DixonFredrik O Vannberg

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