Author dc.contributor.author | Németh, Krisztina | |
Author dc.contributor.author | Varga, Zoltán | |
Author dc.contributor.author | Lenzinger, Dorina | |
Author dc.contributor.author | Visnovitz, Tamás | |
Author dc.contributor.author | Koncz, Anna | |
Author dc.contributor.author | Hegedűs, Nikolett | |
Author dc.contributor.author | Kittel, Ágnes | |
Author dc.contributor.author | Máthé, Domokos | |
Author dc.contributor.author | Szigeti, Krisztián | |
Author dc.contributor.author | Lőrincz, Péter | |
Availability Date dc.date.accessioned | 2024-08-06T07:24:02Z | |
Availability Date dc.date.available | 2024-08-06T07:24:02Z | |
Release dc.date.issued | 2021 | |
uri dc.identifier.uri | http://hdl.handle.net/10831/110816 | |
Abstract dc.description.abstract | Liver plays a central role in elimination of circulating extracellular vesicles (EVs), and it also significantly contributes to EV release. However, the involvement of the different liver cell populations remains unknown. Here, we investigated EV uptake and release both in normolipemia and hyperlipidemia. C57BL/6 mice were kept on high fat diet for 20-30 weeks before circulating EV profiles were determined. In addition, control mice were intravenously injected with 99mTc-HYNIC-Duramycin labeled EVs, and an hour later, biodistribution was analyzed by SPECT/CT. In vitro, isolated liver cell types were tested for EV release and uptake with/without prior fatty acid treatment. We detected an elevated circulating EV number after the high fat diet. To clarify the differential involvement of liver cell types, we carried out in vitro experiments. We found an increased release of EVs by primary hepatocytes at concentrations of fatty acids comparable to what is characteristic for hyperlipidemia. When investigating EV biodistribution with 99mTc-labeled EVs, we detected EV accumulation primarily in the liver upon intravenous injection of mice with medium (326.3 ± 19.8 nm) and small EVs (130.5 ± 5.8 nm). In vitro, we found that medium and small EVs were preferentially taken up by Kupffer cells, and liver sinusoidal endothelial cells, respectively. Finally, we demonstrated that in hyperlipidemia, there was a decreased EV uptake both by Kupffer cells and liver sinusoidal endothelial cells. Our data suggest that hyperlipidema increases the release and reduces the uptake of EVs by liver cells. We also provide evidence for a size-dependent differential EV uptake by the different cell types of the liver. The EV radiolabeling protocol using 99mTc-Duramycin may provide a fast and simple labeling approach for SPECT/CT imaging of EVs biodistribution. | |
Language dc.language | Angol | |
dc.rights | Nevezd meg! CC BY | |
dc.rights.uri | https://creativecommons.org/licenses/by/4.0/ | |
Title dc.title | Extracellular vesicle release and uptake by the liver under normo- and hyperlipidemia | |
Type dc.type | folyóiratcikk | |
Date Change dc.date.updated | 2024-08-06T07:17:01Z | |
Note dc.description.note | Edit I. Buzás and Viola Tamási shares last authorship | |
Scope dc.format.page | 7589-7604 | |
Doi ID dc.identifier.doi | https://doi.org/10.1007/s00018-021-03969-6 | |
Wos ID dc.identifier.wos | 000708809700001 | |
ID Scopus dc.identifier.scopus | 85117258245 | |
MTMT ID dc.identifier.mtmt | 32289889 | |
Issue Number dc.identifier.issue | 23 | |
abbreviated journal dc.identifier.jabbrev | CELL MOL LIFE SCI | |
Journal dc.identifier.jtitle | CELLULAR AND MOLECULAR LIFE SCIENCES | |
Volume Number dc.identifier.volume | 78 | |
Release Date dc.description.issuedate | 2021 | |
Pubmed ID dc.identifier.pubmed | 34665280 | |
department of Author dc.contributor.institution | Biológiai Nanokémiai Kutatócsoport | |
department of Author dc.contributor.institution | HCEMM-SE Extracelluláris Vezikula Kutatócsoport | |
department of Author dc.contributor.institution | HUN-REN-SE Transzlációs Extracelluláris Vezikula Kutatócsoport | |
department of Author dc.contributor.institution | MTA-SE Immun-proteogenomikai Extracelluláris Vezikula Kutatócsoport | |
department of Author dc.contributor.institution | Semmelweis Egyetem | |
department of Author dc.contributor.institution | Anyag- és Környezetkémiai Intézet | |
department of Author dc.contributor.institution | Szerves Kémiai Intézet | |
department of Author dc.contributor.institution | HCEMM-SE In Vivo Képalkotó Műszerközpont | |
department of Author dc.contributor.institution | Kinepict Health Korlátolt Felelősségű Társaság | |
department of Author dc.contributor.institution | Molekuláris Farmakológia Kutatócsoport | |
Author institution dc.contributor.department | Genetikai, Sejt- és Immunbiológiai Intézet | |
Author institution dc.contributor.department | Biofizikai és Sugárbiológiai Intézet | |
Author institution dc.contributor.department | Anyag- és Környezetkémiai Intézet | |
Author institution dc.contributor.department | Biológiai Nanokémiai Kutatócsoport | |
Author institution dc.contributor.department | Genetikai, Sejt- és Immunbiológiai Intézet | |
Author institution dc.contributor.department | Genetikai, Sejt- és Immunbiológiai Intézet | |
Author institution dc.contributor.department | Genetikai, Sejt- és Immunbiológiai Intézet | |
Author institution dc.contributor.department | Biofizikai és Sugárbiológiai Intézet | |
Author institution dc.contributor.department | Kísérleti Orvostudományi Kutatóintézet | |
Author institution dc.contributor.department | Biofizikai és Sugárbiológiai Intézet |
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