Fusion of Bacterial Flagellin to a Dendritic Cell-Targeting αCD40 Antibody Construct Coupled With Viral or Leukemia-Specific Antigens Enhances Dendritic Cell Maturation and Activates Peptide-Responsive T Cells

Fusion of Bacterial Flagellin to a Dendritic Cell-Targeting αCD40 Antibody Construct Coupled With Viral or Leukemia-Specific Antigens Enhances Dendritic Cell Maturation and Activates Peptide-Responsive T Cells

Conventional dendritic cell (DC) vaccine strategies, in which DCs are loaded with antigens ex vivo, suffer biological issues such as impaired DC migration capacity and laborious GMP production procedures. In a promising alternative, antigens are targeted to DC-associated endocytic receptors in vivo...

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Main Authors: Saskia Schmitt, Siret Tahk, Alina Lohner, Gerulf Hänel, Andreas Maiser, Martina Hauke, Lubna Patel, Maurine Rothe, Christine Josenhans, Heinrich Leonhardt, Marieke Griffioen, Katrin Deiser, Nadja C. Fenn, Karl-Peter Hopfner, Marion Subklewe
Format: Article
Language:English
Published: Frontiers Media S.A. 2020-11-01
Series:Frontiers in Immunology
Subjects:
dendritic cell
flagellin
neoantigen
vaccine
antibody
acute myeloid leukemia
Online Access:https://www.frontiersin.org/articles/10.3389/fimmu.2020.602802/full
id doaj-e082309ebca1404a9c1701d0a15f7f62
record_format Article
collection DOAJ
language English
format Article
sources DOAJ
author Saskia Schmitt
Siret Tahk
Alina Lohner
Alina Lohner
Gerulf Hänel
Gerulf Hänel
Andreas Maiser
Martina Hauke
Lubna Patel
Maurine Rothe
Maurine Rothe
Christine Josenhans
Christine Josenhans
Heinrich Leonhardt
Marieke Griffioen
Katrin Deiser
Katrin Deiser
Nadja C. Fenn
Karl-Peter Hopfner
Marion Subklewe
Marion Subklewe
Marion Subklewe
spellingShingle Saskia Schmitt
Siret Tahk
Alina Lohner
Alina Lohner
Gerulf Hänel
Gerulf Hänel
Andreas Maiser
Martina Hauke
Lubna Patel
Maurine Rothe
Maurine Rothe
Christine Josenhans
Christine Josenhans
Heinrich Leonhardt
Marieke Griffioen
Katrin Deiser
Katrin Deiser
Nadja C. Fenn
Karl-Peter Hopfner
Marion Subklewe
Marion Subklewe
Marion Subklewe
Fusion of Bacterial Flagellin to a Dendritic Cell-Targeting αCD40 Antibody Construct Coupled With Viral or Leukemia-Specific Antigens Enhances Dendritic Cell Maturation and Activates Peptide-Responsive T Cells
Frontiers in Immunology
dendritic cell
flagellin
neoantigen
vaccine
antibody
acute myeloid leukemia
author_facet Saskia Schmitt
Siret Tahk
Alina Lohner
Alina Lohner
Gerulf Hänel
Gerulf Hänel
Andreas Maiser
Martina Hauke
Lubna Patel
Maurine Rothe
Maurine Rothe
Christine Josenhans
Christine Josenhans
Heinrich Leonhardt
Marieke Griffioen
Katrin Deiser
Katrin Deiser
Nadja C. Fenn
Karl-Peter Hopfner
Marion Subklewe
Marion Subklewe
Marion Subklewe
author_sort Saskia Schmitt
title Fusion of Bacterial Flagellin to a Dendritic Cell-Targeting αCD40 Antibody Construct Coupled With Viral or Leukemia-Specific Antigens Enhances Dendritic Cell Maturation and Activates Peptide-Responsive T Cells
title_short Fusion of Bacterial Flagellin to a Dendritic Cell-Targeting αCD40 Antibody Construct Coupled With Viral or Leukemia-Specific Antigens Enhances Dendritic Cell Maturation and Activates Peptide-Responsive T Cells
title_full Fusion of Bacterial Flagellin to a Dendritic Cell-Targeting αCD40 Antibody Construct Coupled With Viral or Leukemia-Specific Antigens Enhances Dendritic Cell Maturation and Activates Peptide-Responsive T Cells
title_fullStr Fusion of Bacterial Flagellin to a Dendritic Cell-Targeting αCD40 Antibody Construct Coupled With Viral or Leukemia-Specific Antigens Enhances Dendritic Cell Maturation and Activates Peptide-Responsive T Cells
title_full_unstemmed Fusion of Bacterial Flagellin to a Dendritic Cell-Targeting αCD40 Antibody Construct Coupled With Viral or Leukemia-Specific Antigens Enhances Dendritic Cell Maturation and Activates Peptide-Responsive T Cells
title_sort fusion of bacterial flagellin to a dendritic cell-targeting αcd40 antibody construct coupled with viral or leukemia-specific antigens enhances dendritic cell maturation and activates peptide-responsive t cells
publisher Frontiers Media S.A.
series Frontiers in Immunology
issn 1664-3224
publishDate 2020-11-01
description Conventional dendritic cell (DC) vaccine strategies, in which DCs are loaded with antigens ex vivo, suffer biological issues such as impaired DC migration capacity and laborious GMP production procedures. In a promising alternative, antigens are targeted to DC-associated endocytic receptors in vivo with antibody–antigen conjugates co-administered with toll-like receptor (TLR) agonists as adjuvants. To combine the potential advantages of in vivo targeting of DCs with those of conjugated TLR agonists, we generated a multifunctional antibody construct integrating the DC-specific delivery of viral- or tumor-associated antigens and DC activation by TLR ligation in one molecule. We validated its functionality in vitro and determined if TLR ligation might improve the efficacy of such a molecule. In proof-of-principle studies, an αCD40 antibody containing a CMV pp65-derived peptide as an antigen domain (αCD40CMV) was genetically fused to the TLR5-binding D0/D1 domain of bacterial flagellin (αCD40.FlgCMV). The analysis of surface maturation markers on immature DCs revealed that fusion of flagellin to αCD40CMV highly increased DC maturation (3.4-fold elevation of CD80 expression compared to αCD40CMV alone) by specifically interacting with TLR5. Immature DCs loaded with αCD40.FlgCMV induced significantly higher CMVNLV-specific T cell activation and proliferation compared to αCD40CMV in co-culture experiments with allogeneic and autologous T cells (1.8-fold increase in % IFN-γ/TNF-α+ CD8+ T cells and 3.9-fold increase in % CMVNLV-specific dextramer+ CD8+ T cells). More importantly, we confirmed the beneficial effects of flagellin-dependent DC stimulation using a tumor-specific neoantigen as the antigen domain. Specifically, the acute myeloid leukemia (AML)-specific mutated NPM1 (mNPM1)-derived neoantigen CLAVEEVSL was delivered to DCs in the form of αCD40mNPM1 and αCD40.FlgmNPM1 antibody constructs, making this study the first to investigate mNPM1 in a DC vaccination context. Again, αCD40.FlgmNPM1-loaded DCs more potently activated allogeneic mNPM1CLA-specific T cells compared to αCD40mNPM1. These in vitro results confirmed the functionality of our multifunctional antibody construct and demonstrated that TLR5 ligation improved the efficacy of the molecule. Future mouse studies are required to examine the T cell-activating potential of αCD40.FlgmNPM1 after targeting of dendritic cells in vivo using AML xenograft models.
topic dendritic cell
flagellin
neoantigen
vaccine
antibody
acute myeloid leukemia
url https://www.frontiersin.org/articles/10.3389/fimmu.2020.602802/full
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spelling doaj-e082309ebca1404a9c1701d0a15f7f622020-11-25T04:09:57ZengFrontiers Media S.A.Frontiers in Immunology1664-32242020-11-011110.3389/fimmu.2020.602802602802Fusion of Bacterial Flagellin to a Dendritic Cell-Targeting αCD40 Antibody Construct Coupled With Viral or Leukemia-Specific Antigens Enhances Dendritic Cell Maturation and Activates Peptide-Responsive T CellsSaskia Schmitt0Siret Tahk1Alina Lohner2Alina Lohner3Gerulf Hänel4Gerulf Hänel5Andreas Maiser6Martina Hauke7Lubna Patel8Maurine Rothe9Maurine Rothe10Christine Josenhans11Christine Josenhans12Heinrich Leonhardt13Marieke Griffioen14Katrin Deiser15Katrin Deiser16Nadja C. Fenn17Karl-Peter Hopfner18Marion Subklewe19Marion Subklewe20Marion Subklewe21Gene Center and Department of Biochemistry, Ludwig Maximilians University Munich, Munich, GermanyGene Center and Department of Biochemistry, Ludwig Maximilians University Munich, Munich, GermanyDepartment of Medicine III, University Hospital, Ludwig Maximilians University Munich, Munich, GermanyGene Center Munich, Laboratory for Translational Cancer Immunology, Ludwig Maximilians University Munich, Munich, GermanyDepartment of Medicine III, University Hospital, Ludwig Maximilians University Munich, Munich, GermanyGene Center Munich, Laboratory for Translational Cancer Immunology, Ludwig Maximilians University Munich, Munich, GermanyDepartment of Biology II, Center for Integrated Protein Science, Ludwig Maximilians University Munich, Munich, GermanyMax von Pettenkofer Institute, Ludwig Maximilians University Munich, Munich, GermanyMax von Pettenkofer Institute, Ludwig Maximilians University Munich, Munich, GermanyDepartment of Medicine III, University Hospital, Ludwig Maximilians University Munich, Munich, GermanyGene Center Munich, Laboratory for Translational Cancer Immunology, Ludwig Maximilians University Munich, Munich, GermanyMax von Pettenkofer Institute, Ludwig Maximilians University Munich, Munich, GermanyGerman Center of Infection Research, DZIF, Munich, GermanyDepartment of Biology II, Center for Integrated Protein Science, Ludwig Maximilians University Munich, Munich, GermanyDepartment of Hematology, Leiden University Medical Center, Leiden, NetherlandsDepartment of Medicine III, University Hospital, Ludwig Maximilians University Munich, Munich, GermanyGene Center Munich, Laboratory for Translational Cancer Immunology, Ludwig Maximilians University Munich, Munich, GermanyGene Center and Department of Biochemistry, Ludwig Maximilians University Munich, Munich, GermanyGene Center and Department of Biochemistry, Ludwig Maximilians University Munich, Munich, GermanyDepartment of Medicine III, University Hospital, Ludwig Maximilians University Munich, Munich, GermanyGene Center Munich, Laboratory for Translational Cancer Immunology, Ludwig Maximilians University Munich, Munich, GermanyGerman Cancer Consortium (DKTK) and German Cancer Research Center (DKFZ), Heidelberg, GermanyConventional dendritic cell (DC) vaccine strategies, in which DCs are loaded with antigens ex vivo, suffer biological issues such as impaired DC migration capacity and laborious GMP production procedures. In a promising alternative, antigens are targeted to DC-associated endocytic receptors in vivo with antibody–antigen conjugates co-administered with toll-like receptor (TLR) agonists as adjuvants. To combine the potential advantages of in vivo targeting of DCs with those of conjugated TLR agonists, we generated a multifunctional antibody construct integrating the DC-specific delivery of viral- or tumor-associated antigens and DC activation by TLR ligation in one molecule. We validated its functionality in vitro and determined if TLR ligation might improve the efficacy of such a molecule. In proof-of-principle studies, an αCD40 antibody containing a CMV pp65-derived peptide as an antigen domain (αCD40CMV) was genetically fused to the TLR5-binding D0/D1 domain of bacterial flagellin (αCD40.FlgCMV). The analysis of surface maturation markers on immature DCs revealed that fusion of flagellin to αCD40CMV highly increased DC maturation (3.4-fold elevation of CD80 expression compared to αCD40CMV alone) by specifically interacting with TLR5. Immature DCs loaded with αCD40.FlgCMV induced significantly higher CMVNLV-specific T cell activation and proliferation compared to αCD40CMV in co-culture experiments with allogeneic and autologous T cells (1.8-fold increase in % IFN-γ/TNF-α+ CD8+ T cells and 3.9-fold increase in % CMVNLV-specific dextramer+ CD8+ T cells). More importantly, we confirmed the beneficial effects of flagellin-dependent DC stimulation using a tumor-specific neoantigen as the antigen domain. Specifically, the acute myeloid leukemia (AML)-specific mutated NPM1 (mNPM1)-derived neoantigen CLAVEEVSL was delivered to DCs in the form of αCD40mNPM1 and αCD40.FlgmNPM1 antibody constructs, making this study the first to investigate mNPM1 in a DC vaccination context. Again, αCD40.FlgmNPM1-loaded DCs more potently activated allogeneic mNPM1CLA-specific T cells compared to αCD40mNPM1. These in vitro results confirmed the functionality of our multifunctional antibody construct and demonstrated that TLR5 ligation improved the efficacy of the molecule. Future mouse studies are required to examine the T cell-activating potential of αCD40.FlgmNPM1 after targeting of dendritic cells in vivo using AML xenograft models.https://www.frontiersin.org/articles/10.3389/fimmu.2020.602802/fulldendritic cellflagellinneoantigenvaccineantibodyacute myeloid leukemia

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