Exosome-mediated Delivery of RNA Interference and miRNA Mimic

Momen-Heravi, Fatemeh; Bala, Shashi; Bukong, Terence N.; Szabo, Gyongyi

dc.contributor.author	Momen-Heravi, Fatemeh
dc.contributor.author	Bala, Shashi
dc.contributor.author	Bukong, Terence N.
dc.contributor.author	Szabo, Gyongyi
dc.date	2022-08-11T08:08:14.000
dc.date.accessioned	2022-08-23T15:47:25Z
dc.date.available	2022-08-23T15:47:25Z
dc.date.issued	2014-05-20
dc.date.submitted	2014-10-10
dc.identifier.doi	10.13028/n594-nd51
dc.identifier.uri	http://hdl.handle.net/20.500.14038/27982
dc.description	<p>Abstract of poster presented at the 2014 UMass Center for Clinical and Translational Science Research Retreat, held on May 20, 2014 at the University of Massachusetts Medical School, Worcester, Mass.</p>
dc.description.abstract	Exosomes, membranous nanovesicles, naturally carry bio-macromolecules and play pivotal roles in both physiological intercellular crosstalk and disease pathogenesis. Here, we showed that B cell-derived exosomes can function as vehicles to deliver exogenous miRNA-155 mimic or inhibitor into hepatocytes or macrophages, respectively. Stimulation of B cells significantly increased exosome production. Unlike in parental cells, baseline level of miRNA-155 was very low in exosomes derived from stimulated B cells. Exosomes loaded with a miRNA-155 mimic significantly increased miRNA-155 levels in primary mouse hepatocytes and the liver of miRNA-155 knockout mice. Treatment of RAW macrophages with miRNA-155 inhibitor loaded exosomes resulted in statistically significant reduction in LPS-induced TNFα production and partially prevented LPS-induced decrease in SOCS1 mRNA levels. Furthermore, exosome-mediated miRNA-155 inhibitor delivery resulted in functionally more efficient inhibition and less cellular toxicity compared to conventional transfection methods. Similar approaches could be useful in modification of target biomolecules in vitro and in vivo.
dc.format	youtube
dc.language.iso	en_US
dc.rights	Copyright the Author(s)
dc.rights.uri	http://creativecommons.org/licenses/by-nc-sa/3.0/
dc.subject	Cell and Developmental Biology
dc.subject	Cell Biology
dc.subject	Cellular and Molecular Physiology
dc.subject	Molecular Genetics
dc.subject	Translational Medical Research
dc.title	Exosome-mediated Delivery of RNA Interference and miRNA Mimic
dc.type	Poster Abstract
dc.identifier.legacyfulltext	https://escholarship.umassmed.edu/cgi/viewcontent.cgi?article=1287&context=cts_retreat&unstamped=1
dc.identifier.legacycoverpage	https://escholarship.umassmed.edu/cts_retreat/2014/posters/67
dc.identifier.contextkey	6225203
refterms.dateFOA	2022-08-23T15:47:25Z
html.description.abstract	<p>Exosomes, membranous nanovesicles, naturally carry bio-macromolecules and play pivotal roles in both physiological intercellular crosstalk and disease pathogenesis. Here, we showed that B cell-derived exosomes can function as vehicles to deliver exogenous miRNA-155 mimic or inhibitor into hepatocytes or macrophages, respectively. Stimulation of B cells significantly increased exosome production. Unlike in parental cells, baseline level of miRNA-155 was very low in exosomes derived from stimulated B cells. Exosomes loaded with a miRNA-155 mimic significantly increased miRNA-155 levels in primary mouse hepatocytes and the liver of miRNA-155 knockout mice. Treatment of RAW macrophages with miRNA-155 inhibitor loaded exosomes resulted in statistically significant reduction in LPS-induced TNFα production and partially prevented LPS-induced decrease in SOCS1 mRNA levels. Furthermore, exosome-mediated miRNA-155 inhibitor delivery resulted in functionally more efficient inhibition and less cellular toxicity compared to conventional transfection methods. Similar approaches could be useful in modification of target biomolecules in vitro and in vivo.</p>
dc.identifier.submissionpath	cts_retreat/2014/posters/67