Literature DB >> 22031862

Mechanism of transfer of functional microRNAs between mouse dendritic cells via exosomes.

Angela Montecalvo1, Adriana T Larregina, William J Shufesky, Donna Beer Stolz, Mara L G Sullivan, Jenny M Karlsson, Catherine J Baty, Gregory A Gibson, Geza Erdos, Zhiliang Wang, Jadranka Milosevic, Olga A Tkacheva, Sherrie J Divito, Rick Jordan, James Lyons-Weiler, Simon C Watkins, Adrian E Morelli.   

Abstract

Dendritic cells (DCs) are the most potent APCs. Whereas immature DCs down-regulate T-cell responses to induce/maintain immunologic tolerance, mature DCs promote immunity. To amplify their functions, DCs communicate with neighboring DCs through soluble mediators, cell-to-cell contact, and vesicle exchange. Transfer of nanovesicles (< 100 nm) derived from the endocytic pathway (termed exosomes) represents a novel mechanism of DC-to-DC communication. The facts that exosomes contain exosome-shuttle miRNAs and DC functions can be regulated by exogenous miRNAs, suggest that DC-to-DC interactions could be mediated through exosome-shuttle miRNAs, a hypothesis that remains to be tested. Importantly, the mechanism of transfer of exosome-shuttle miRNAs from the exosome lumen to the cytosol of target cells is unknown. Here, we demonstrate that DCs release exosomes with different miRNAs depending on the maturation of the DCs. By visualizing spontaneous transfer of exosomes between DCs, we demonstrate that exosomes fused with the target DCs, the latter followed by release of the exosome content into the DC cytosol. Importantly, exosome-shuttle miRNAs are functional, because they repress target mRNAs of acceptor DCs. Our findings unveil a mechanism of transfer of exosome-shuttle miRNAs between DCs and its role as a means of communication and posttranscriptional regulation between DCs.

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Year:  2011        PMID: 22031862      PMCID: PMC3265200          DOI: 10.1182/blood-2011-02-338004

Source DB:  PubMed          Journal:  Blood        ISSN: 0006-4971            Impact factor:   22.113


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