Particle-mediated Intravenous Delivery of Antigen mRNA Results in Strong Antigen-specific T-cell Responses Despite the Induction of Type I Interferon

Particle-mediated Intravenous Delivery of Antigen mRNA Results in Strong Antigen-specific T-cell Responses Despite the Induction of Type I Interferon

Cancer vaccines based on mRNA are extensively studied. The fragile nature of mRNA has instigated research into carriers that can protect it from ribonucleases and as such enable its systemic use. However, carrier-mediated delivery of mRNA has been linked to production of type I interferon (IFN) that...

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Main Authors: Katrijn Broos, Kevin Van der Jeught, Janik Puttemans, Cleo Goyvaerts, Carlo Heirman, Heleen Dewitte, Rein Verbeke, Ine Lentacker, Kris Thielemans, Karine Breckpot
Format: Article
Language:English
Published: Elsevier 2016-01-01
Series:Molecular Therapy: Nucleic Acids
Subjects:
cytotoxic T lymphocyte
immunotherapy
liposome
mRNA
particle
type I interferon
Online Access:http://www.sciencedirect.com/science/article/pii/S2162253117300525
id doaj-b354ec6aeb88494ebbf9c48eab260c87
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spelling doaj-b354ec6aeb88494ebbf9c48eab260c872020-11-24T22:57:12ZengElsevierMolecular Therapy: Nucleic Acids2162-25312016-01-015C10.1038/mtna.2016.38Particle-mediated Intravenous Delivery of Antigen mRNA Results in Strong Antigen-specific T-cell Responses Despite the Induction of Type I InterferonKatrijn Broos0Kevin Van der Jeught1Janik Puttemans2Cleo Goyvaerts3Carlo Heirman4Heleen Dewitte5Rein Verbeke6Ine Lentacker7Kris Thielemans8Karine Breckpot9Laboratory of Molecular and Cellular Therapy, Department of Biomedical Sciences, Vrije Universiteit Brussel, Brussels, BelgiumLaboratory of Molecular and Cellular Therapy, Department of Biomedical Sciences, Vrije Universiteit Brussel, Brussels, BelgiumLaboratory of Molecular and Cellular Therapy, Department of Biomedical Sciences, Vrije Universiteit Brussel, Brussels, BelgiumLaboratory of Molecular and Cellular Therapy, Department of Biomedical Sciences, Vrije Universiteit Brussel, Brussels, BelgiumLaboratory of Molecular and Cellular Therapy, Department of Biomedical Sciences, Vrije Universiteit Brussel, Brussels, BelgiumLaboratory for General Biochemistry and Physical Pharmacy, Faculty of Pharmacy, Ghent University, Ghent, BelgiumLaboratory for General Biochemistry and Physical Pharmacy, Faculty of Pharmacy, Ghent University, Ghent, BelgiumLaboratory for General Biochemistry and Physical Pharmacy, Faculty of Pharmacy, Ghent University, Ghent, BelgiumLaboratory of Molecular and Cellular Therapy, Department of Biomedical Sciences, Vrije Universiteit Brussel, Brussels, BelgiumLaboratory of Molecular and Cellular Therapy, Department of Biomedical Sciences, Vrije Universiteit Brussel, Brussels, BelgiumCancer vaccines based on mRNA are extensively studied. The fragile nature of mRNA has instigated research into carriers that can protect it from ribonucleases and as such enable its systemic use. However, carrier-mediated delivery of mRNA has been linked to production of type I interferon (IFN) that was reported to compromise the effectiveness of mRNA vaccines. In this study, we evaluated a cationic lipid for encapsulation of mRNA. The nanometer-sized, negatively charged lipid mRNA particles (LMPs) efficiently transfected dendritic cells and macrophages in vitro. Furthermore, i.v. delivery of LMPs resulted in rapid expression of the mRNA-encoded protein in spleen and liver, predominantly in CD11c+ cells and to a minor extent in CD11b+ cells. Intravenous immunization of mice with LMPs containing ovalbumin, human papilloma virus E7, and tyrosinase-related protein-2 mRNA, either combined or separately, elicited strong antigen-specific T-cell responses. We further showed the production of type I IFNs upon i.v. LMP delivery. Although this decreased the expression of the mRNA-encoded protein, it supported the induction of antigen-specific T-cell responses. These data question the current notion that type I IFNs hamper particle-mediated mRNA vaccines.http://www.sciencedirect.com/science/article/pii/S2162253117300525cytotoxic T lymphocyteimmunotherapyliposomemRNAparticletype I interferon
collection DOAJ
language English
format Article
sources DOAJ
author Katrijn Broos
Kevin Van der Jeught
Janik Puttemans
Cleo Goyvaerts
Carlo Heirman
Heleen Dewitte
Rein Verbeke
Ine Lentacker
Kris Thielemans
Karine Breckpot
spellingShingle Katrijn Broos
Kevin Van der Jeught
Janik Puttemans
Cleo Goyvaerts
Carlo Heirman
Heleen Dewitte
Rein Verbeke
Ine Lentacker
Kris Thielemans
Karine Breckpot
Particle-mediated Intravenous Delivery of Antigen mRNA Results in Strong Antigen-specific T-cell Responses Despite the Induction of Type I Interferon
Molecular Therapy: Nucleic Acids
cytotoxic T lymphocyte
immunotherapy
liposome
mRNA
particle
type I interferon
author_facet Katrijn Broos
Kevin Van der Jeught
Janik Puttemans
Cleo Goyvaerts
Carlo Heirman
Heleen Dewitte
Rein Verbeke
Ine Lentacker
Kris Thielemans
Karine Breckpot
author_sort Katrijn Broos
title Particle-mediated Intravenous Delivery of Antigen mRNA Results in Strong Antigen-specific T-cell Responses Despite the Induction of Type I Interferon
title_short Particle-mediated Intravenous Delivery of Antigen mRNA Results in Strong Antigen-specific T-cell Responses Despite the Induction of Type I Interferon
title_full Particle-mediated Intravenous Delivery of Antigen mRNA Results in Strong Antigen-specific T-cell Responses Despite the Induction of Type I Interferon
title_fullStr Particle-mediated Intravenous Delivery of Antigen mRNA Results in Strong Antigen-specific T-cell Responses Despite the Induction of Type I Interferon
title_full_unstemmed Particle-mediated Intravenous Delivery of Antigen mRNA Results in Strong Antigen-specific T-cell Responses Despite the Induction of Type I Interferon
title_sort particle-mediated intravenous delivery of antigen mrna results in strong antigen-specific t-cell responses despite the induction of type i interferon
publisher Elsevier
series Molecular Therapy: Nucleic Acids
issn 2162-2531
publishDate 2016-01-01
description Cancer vaccines based on mRNA are extensively studied. The fragile nature of mRNA has instigated research into carriers that can protect it from ribonucleases and as such enable its systemic use. However, carrier-mediated delivery of mRNA has been linked to production of type I interferon (IFN) that was reported to compromise the effectiveness of mRNA vaccines. In this study, we evaluated a cationic lipid for encapsulation of mRNA. The nanometer-sized, negatively charged lipid mRNA particles (LMPs) efficiently transfected dendritic cells and macrophages in vitro. Furthermore, i.v. delivery of LMPs resulted in rapid expression of the mRNA-encoded protein in spleen and liver, predominantly in CD11c+ cells and to a minor extent in CD11b+ cells. Intravenous immunization of mice with LMPs containing ovalbumin, human papilloma virus E7, and tyrosinase-related protein-2 mRNA, either combined or separately, elicited strong antigen-specific T-cell responses. We further showed the production of type I IFNs upon i.v. LMP delivery. Although this decreased the expression of the mRNA-encoded protein, it supported the induction of antigen-specific T-cell responses. These data question the current notion that type I IFNs hamper particle-mediated mRNA vaccines.
topic cytotoxic T lymphocyte
immunotherapy
liposome
mRNA
particle
type I interferon
url http://www.sciencedirect.com/science/article/pii/S2162253117300525
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