Enhancing chimeric antigen receptor T‐cell immunotherapy against cancer using a nanoemulsion‐based vaccine targeting cross‐presenting dendritic cells

Enhancing chimeric antigen receptor T‐cell immunotherapy against cancer using a nanoemulsion‐based vaccine targeting cross‐presenting dendritic cells

Abstract Objectives Adoptive transfer of chimeric antigen receptor (CAR)‐modified T cells is a form of cancer immunotherapy that has achieved remarkable efficacy in patients with some haematological cancers. However, challenges remain in CAR T‐cell treatment of solid tumours because of tumour‐mediat...

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Main Authors: Jack D Chan, Bianca vonScheidt, Bijun Zeng, Amanda J Oliver, Ashleigh S Davey, Aesha I Ali, Ranjeny Thomas, Joseph A Trapani, Phillip K Darcy, Michael H Kershaw, Riccardo Dolcetti, Clare Y Slaney
Format: Article
Language:English
Published: Wiley 2020-01-01
Series:Clinical & Translational Immunology
Subjects:
CAR T cells
Clec9A
cross‐presentation
dendritic cells
nanoemulsion
vaccine
Online Access:https://doi.org/10.1002/cti2.1157
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spelling doaj-fcf8f427b57d41fd96ae5a6361cd0f8b2020-11-25T03:49:26ZengWileyClinical & Translational Immunology2050-00682020-01-0197n/an/a10.1002/cti2.1157Enhancing chimeric antigen receptor T‐cell immunotherapy against cancer using a nanoemulsion‐based vaccine targeting cross‐presenting dendritic cellsJack D Chan0Bianca vonScheidt1Bijun Zeng2Amanda J Oliver3Ashleigh S Davey4Aesha I Ali5Ranjeny Thomas6Joseph A Trapani7Phillip K Darcy8Michael H Kershaw9Riccardo Dolcetti10Clare Y Slaney11Cancer Immunology Program Peter MacCallum Cancer Center Melbourne VIC AustraliaCancer Immunology Program Peter MacCallum Cancer Center Melbourne VIC AustraliaThe University of Queensland Diamantina Institute Translational Research Institute Woolloongabba QLD AustraliaCancer Immunology Program Peter MacCallum Cancer Center Melbourne VIC AustraliaCancer Immunology Program Peter MacCallum Cancer Center Melbourne VIC AustraliaCancer Immunology Program Peter MacCallum Cancer Center Melbourne VIC AustraliaThe University of Queensland Diamantina Institute Translational Research Institute Woolloongabba QLD AustraliaCancer Immunology Program Peter MacCallum Cancer Center Melbourne VIC AustraliaCancer Immunology Program Peter MacCallum Cancer Center Melbourne VIC AustraliaCancer Immunology Program Peter MacCallum Cancer Center Melbourne VIC AustraliaThe University of Queensland Diamantina Institute Translational Research Institute Woolloongabba QLD AustraliaCancer Immunology Program Peter MacCallum Cancer Center Melbourne VIC AustraliaAbstract Objectives Adoptive transfer of chimeric antigen receptor (CAR)‐modified T cells is a form of cancer immunotherapy that has achieved remarkable efficacy in patients with some haematological cancers. However, challenges remain in CAR T‐cell treatment of solid tumours because of tumour‐mediated immunosuppression. Methods We have demonstrated that CAR T‐cell stimulation through T‐cell receptors (TCRs) in vivo can generate durable responses against solid tumours in a variety of murine models. Since Clec9A‐targeting tailored nanoemulsion (Clec9A‐TNE) vaccine enhances antitumour immune responses through selective activation of Clec9A+ cross‐presenting dendritic cells (DCs), we hypothesised that Clec9A‐TNE could prime DCs for antigen presentation to CAR T cells through TCRs and thus improve CAR T‐cell responses against solid tumours. To test this hypothesis, we used CAR T cells expressing transgenic TCRs specific for ovalbumin (OVA) peptides SIINFEKL (CAROTI) or OVA323‐339 (CAROTII). Results We demonstrated that the Clec9A‐TNEs encapsulating full‐length recombinant OVA protein (OVA‐Clec9A‐TNE) improved CAROT T‐cell proliferation and inflammatory cytokine secretion in vitro. Combined treatment using the OVA‐Clec9A‐TNE and CAROT cells resulted in durable responses and some rejections of tumours in immunocompetent mice. Tumour regression was accompanied by enhanced CAROT cell proliferation and infiltration into the tumours. Conclusion Our study presents Clec9A‐TNE as a prospective avenue to enhance CAR T‐cell efficacy for solid cancers.https://doi.org/10.1002/cti2.1157CAR T cellsClec9Across‐presentationdendritic cellsnanoemulsionvaccine
collection DOAJ
language English
format Article
sources DOAJ
author Jack D Chan
Bianca vonScheidt
Bijun Zeng
Amanda J Oliver
Ashleigh S Davey
Aesha I Ali
Ranjeny Thomas
Joseph A Trapani
Phillip K Darcy
Michael H Kershaw
Riccardo Dolcetti
Clare Y Slaney
spellingShingle Jack D Chan
Bianca vonScheidt
Bijun Zeng
Amanda J Oliver
Ashleigh S Davey
Aesha I Ali
Ranjeny Thomas
Joseph A Trapani
Phillip K Darcy
Michael H Kershaw
Riccardo Dolcetti
Clare Y Slaney
Enhancing chimeric antigen receptor T‐cell immunotherapy against cancer using a nanoemulsion‐based vaccine targeting cross‐presenting dendritic cells
Clinical & Translational Immunology
CAR T cells
Clec9A
cross‐presentation
dendritic cells
nanoemulsion
vaccine
author_facet Jack D Chan
Bianca vonScheidt
Bijun Zeng
Amanda J Oliver
Ashleigh S Davey
Aesha I Ali
Ranjeny Thomas
Joseph A Trapani
Phillip K Darcy
Michael H Kershaw
Riccardo Dolcetti
Clare Y Slaney
author_sort Jack D Chan
title Enhancing chimeric antigen receptor T‐cell immunotherapy against cancer using a nanoemulsion‐based vaccine targeting cross‐presenting dendritic cells
title_short Enhancing chimeric antigen receptor T‐cell immunotherapy against cancer using a nanoemulsion‐based vaccine targeting cross‐presenting dendritic cells
title_full Enhancing chimeric antigen receptor T‐cell immunotherapy against cancer using a nanoemulsion‐based vaccine targeting cross‐presenting dendritic cells
title_fullStr Enhancing chimeric antigen receptor T‐cell immunotherapy against cancer using a nanoemulsion‐based vaccine targeting cross‐presenting dendritic cells
title_full_unstemmed Enhancing chimeric antigen receptor T‐cell immunotherapy against cancer using a nanoemulsion‐based vaccine targeting cross‐presenting dendritic cells
title_sort enhancing chimeric antigen receptor t‐cell immunotherapy against cancer using a nanoemulsion‐based vaccine targeting cross‐presenting dendritic cells
publisher Wiley
series Clinical & Translational Immunology
issn 2050-0068
publishDate 2020-01-01
description Abstract Objectives Adoptive transfer of chimeric antigen receptor (CAR)‐modified T cells is a form of cancer immunotherapy that has achieved remarkable efficacy in patients with some haematological cancers. However, challenges remain in CAR T‐cell treatment of solid tumours because of tumour‐mediated immunosuppression. Methods We have demonstrated that CAR T‐cell stimulation through T‐cell receptors (TCRs) in vivo can generate durable responses against solid tumours in a variety of murine models. Since Clec9A‐targeting tailored nanoemulsion (Clec9A‐TNE) vaccine enhances antitumour immune responses through selective activation of Clec9A+ cross‐presenting dendritic cells (DCs), we hypothesised that Clec9A‐TNE could prime DCs for antigen presentation to CAR T cells through TCRs and thus improve CAR T‐cell responses against solid tumours. To test this hypothesis, we used CAR T cells expressing transgenic TCRs specific for ovalbumin (OVA) peptides SIINFEKL (CAROTI) or OVA323‐339 (CAROTII). Results We demonstrated that the Clec9A‐TNEs encapsulating full‐length recombinant OVA protein (OVA‐Clec9A‐TNE) improved CAROT T‐cell proliferation and inflammatory cytokine secretion in vitro. Combined treatment using the OVA‐Clec9A‐TNE and CAROT cells resulted in durable responses and some rejections of tumours in immunocompetent mice. Tumour regression was accompanied by enhanced CAROT cell proliferation and infiltration into the tumours. Conclusion Our study presents Clec9A‐TNE as a prospective avenue to enhance CAR T‐cell efficacy for solid cancers.
topic CAR T cells
Clec9A
cross‐presentation
dendritic cells
nanoemulsion
vaccine
url https://doi.org/10.1002/cti2.1157
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