Murine liver repair via transient activation of regenerative pathways in hepatocytes using lipid nanoparticle-complexed nucleoside-modified mRNA

When severely or chronically injured, the liver loses ability to regenerate. Here, the authors utilize transient lipid nanoparticle-enclosed HGF and EGF-encoding mRNA delivery to induce hepatocyte proliferation and harness recovery of liver function in murine acute and chronic liver injury models.

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Autores principales: Fatima Rizvi, Elissa Everton, Anna R. Smith, Hua Liu, Elizabeth Osota, Mitchell Beattie, Ying Tam, Norbert Pardi, Drew Weissman, Valerie Gouon-Evans
Formato: article
Lenguaje:EN
Publicado: Nature Portfolio 2021
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Acceso en línea:https://doaj.org/article/92c5e809fade4febb8867b9abf7c2367
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spelling oai:doaj.org-article:92c5e809fade4febb8867b9abf7c23672021-12-02T10:48:27ZMurine liver repair via transient activation of regenerative pathways in hepatocytes using lipid nanoparticle-complexed nucleoside-modified mRNA10.1038/s41467-021-20903-32041-1723https://doaj.org/article/92c5e809fade4febb8867b9abf7c23672021-01-01T00:00:00Zhttps://doi.org/10.1038/s41467-021-20903-3https://doaj.org/toc/2041-1723When severely or chronically injured, the liver loses ability to regenerate. Here, the authors utilize transient lipid nanoparticle-enclosed HGF and EGF-encoding mRNA delivery to induce hepatocyte proliferation and harness recovery of liver function in murine acute and chronic liver injury models.Fatima RizviElissa EvertonAnna R. SmithHua LiuElizabeth OsotaMitchell BeattieYing TamNorbert PardiDrew WeissmanValerie Gouon-EvansNature PortfolioarticleScienceQENNature Communications, Vol 12, Iss 1, Pp 1-10 (2021)
institution DOAJ
collection DOAJ
language EN
topic Science
Q
spellingShingle Science
Q
Fatima Rizvi
Elissa Everton
Anna R. Smith
Hua Liu
Elizabeth Osota
Mitchell Beattie
Ying Tam
Norbert Pardi
Drew Weissman
Valerie Gouon-Evans
Murine liver repair via transient activation of regenerative pathways in hepatocytes using lipid nanoparticle-complexed nucleoside-modified mRNA
description When severely or chronically injured, the liver loses ability to regenerate. Here, the authors utilize transient lipid nanoparticle-enclosed HGF and EGF-encoding mRNA delivery to induce hepatocyte proliferation and harness recovery of liver function in murine acute and chronic liver injury models.
format article
author Fatima Rizvi
Elissa Everton
Anna R. Smith
Hua Liu
Elizabeth Osota
Mitchell Beattie
Ying Tam
Norbert Pardi
Drew Weissman
Valerie Gouon-Evans
author_facet Fatima Rizvi
Elissa Everton
Anna R. Smith
Hua Liu
Elizabeth Osota
Mitchell Beattie
Ying Tam
Norbert Pardi
Drew Weissman
Valerie Gouon-Evans
author_sort Fatima Rizvi
title Murine liver repair via transient activation of regenerative pathways in hepatocytes using lipid nanoparticle-complexed nucleoside-modified mRNA
title_short Murine liver repair via transient activation of regenerative pathways in hepatocytes using lipid nanoparticle-complexed nucleoside-modified mRNA
title_full Murine liver repair via transient activation of regenerative pathways in hepatocytes using lipid nanoparticle-complexed nucleoside-modified mRNA
title_fullStr Murine liver repair via transient activation of regenerative pathways in hepatocytes using lipid nanoparticle-complexed nucleoside-modified mRNA
title_full_unstemmed Murine liver repair via transient activation of regenerative pathways in hepatocytes using lipid nanoparticle-complexed nucleoside-modified mRNA
title_sort murine liver repair via transient activation of regenerative pathways in hepatocytes using lipid nanoparticle-complexed nucleoside-modified mrna
publisher Nature Portfolio
publishDate 2021
url https://doaj.org/article/92c5e809fade4febb8867b9abf7c2367
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