αβ-T Cells Engineered to Express γδ-T Cell Receptors Can Kill Neuroblastoma Organoids Independent of MHC-I Expression

Currently ~50% of patients with a diagnosis of high-risk neuroblastoma will not survive due to relapsing or refractory disease. Recent innovations in immunotherapy for solid tumors are highly promising, but the low MHC-I expression of neuroblastoma represents a major challenge for T cell-mediated im...

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Autores principales: Strijker, Josephine G. M., Pscheid, Ronja, Drent, Esther, van der Hoek, Jessica J. F., Koopmans, Bianca, Ober, Kimberley, van Hooff, Sander R., Kholosy, Waleed M., Cornel, Annelisa M., Coomans, Chris, Bisso, Andrea, van Loenen, Marleen M., Molenaar, Jan J., Wienke, Judith
Formato: Online Artículo Texto
Lenguaje:English
Publicado: MDPI 2021
Materias:
Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8471928/
https://www.ncbi.nlm.nih.gov/pubmed/34575700
http://dx.doi.org/10.3390/jpm11090923
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author Strijker, Josephine G. M.
Pscheid, Ronja
Drent, Esther
van der Hoek, Jessica J. F.
Koopmans, Bianca
Ober, Kimberley
van Hooff, Sander R.
Kholosy, Waleed M.
Cornel, Annelisa M.
Coomans, Chris
Bisso, Andrea
van Loenen, Marleen M.
Molenaar, Jan J.
Wienke, Judith
author_facet Strijker, Josephine G. M.
Pscheid, Ronja
Drent, Esther
van der Hoek, Jessica J. F.
Koopmans, Bianca
Ober, Kimberley
van Hooff, Sander R.
Kholosy, Waleed M.
Cornel, Annelisa M.
Coomans, Chris
Bisso, Andrea
van Loenen, Marleen M.
Molenaar, Jan J.
Wienke, Judith
author_sort Strijker, Josephine G. M.
collection PubMed
description Currently ~50% of patients with a diagnosis of high-risk neuroblastoma will not survive due to relapsing or refractory disease. Recent innovations in immunotherapy for solid tumors are highly promising, but the low MHC-I expression of neuroblastoma represents a major challenge for T cell-mediated immunotherapy. Here, we propose a novel T cell-based immunotherapy approach for neuroblastoma, based on the use of TEG002, αβ-T cells engineered to express a defined γδ-T cell receptor, which can recognize and kill target cells independent of MHC-I. In a co-culture killing assay, we showed that 3 out of 6 neuroblastoma organoids could activate TEG002 as measured by IFNγ production. Transcriptional profiling showed this effect correlates with an increased activity of processes involved in interferon signaling and extracellular matrix organization. Analysis of the dynamics of organoid killing by TEG002 over time confirmed that organoids which induced TEG002 activation were efficiently killed independent of their MHC-I expression. Of note, efficacy of TEG002 treatment was superior to donor-matched untransduced αβ-T cells or endogenous γδ-T cells. Our data suggest that TEG002 may be a promising novel treatment option for a subset of neuroblastoma patients.
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spelling pubmed-84719282021-09-28 αβ-T Cells Engineered to Express γδ-T Cell Receptors Can Kill Neuroblastoma Organoids Independent of MHC-I Expression Strijker, Josephine G. M. Pscheid, Ronja Drent, Esther van der Hoek, Jessica J. F. Koopmans, Bianca Ober, Kimberley van Hooff, Sander R. Kholosy, Waleed M. Cornel, Annelisa M. Coomans, Chris Bisso, Andrea van Loenen, Marleen M. Molenaar, Jan J. Wienke, Judith J Pers Med Article Currently ~50% of patients with a diagnosis of high-risk neuroblastoma will not survive due to relapsing or refractory disease. Recent innovations in immunotherapy for solid tumors are highly promising, but the low MHC-I expression of neuroblastoma represents a major challenge for T cell-mediated immunotherapy. Here, we propose a novel T cell-based immunotherapy approach for neuroblastoma, based on the use of TEG002, αβ-T cells engineered to express a defined γδ-T cell receptor, which can recognize and kill target cells independent of MHC-I. In a co-culture killing assay, we showed that 3 out of 6 neuroblastoma organoids could activate TEG002 as measured by IFNγ production. Transcriptional profiling showed this effect correlates with an increased activity of processes involved in interferon signaling and extracellular matrix organization. Analysis of the dynamics of organoid killing by TEG002 over time confirmed that organoids which induced TEG002 activation were efficiently killed independent of their MHC-I expression. Of note, efficacy of TEG002 treatment was superior to donor-matched untransduced αβ-T cells or endogenous γδ-T cells. Our data suggest that TEG002 may be a promising novel treatment option for a subset of neuroblastoma patients. MDPI 2021-09-17 /pmc/articles/PMC8471928/ /pubmed/34575700 http://dx.doi.org/10.3390/jpm11090923 Text en © 2021 by the authors. https://creativecommons.org/licenses/by/4.0/Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (https://creativecommons.org/licenses/by/4.0/).
spellingShingle Article
Strijker, Josephine G. M.
Pscheid, Ronja
Drent, Esther
van der Hoek, Jessica J. F.
Koopmans, Bianca
Ober, Kimberley
van Hooff, Sander R.
Kholosy, Waleed M.
Cornel, Annelisa M.
Coomans, Chris
Bisso, Andrea
van Loenen, Marleen M.
Molenaar, Jan J.
Wienke, Judith
αβ-T Cells Engineered to Express γδ-T Cell Receptors Can Kill Neuroblastoma Organoids Independent of MHC-I Expression
title αβ-T Cells Engineered to Express γδ-T Cell Receptors Can Kill Neuroblastoma Organoids Independent of MHC-I Expression
title_full αβ-T Cells Engineered to Express γδ-T Cell Receptors Can Kill Neuroblastoma Organoids Independent of MHC-I Expression
title_fullStr αβ-T Cells Engineered to Express γδ-T Cell Receptors Can Kill Neuroblastoma Organoids Independent of MHC-I Expression
title_full_unstemmed αβ-T Cells Engineered to Express γδ-T Cell Receptors Can Kill Neuroblastoma Organoids Independent of MHC-I Expression
title_short αβ-T Cells Engineered to Express γδ-T Cell Receptors Can Kill Neuroblastoma Organoids Independent of MHC-I Expression
title_sort αβ-t cells engineered to express γδ-t cell receptors can kill neuroblastoma organoids independent of mhc-i expression
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8471928/
https://www.ncbi.nlm.nih.gov/pubmed/34575700
http://dx.doi.org/10.3390/jpm11090923
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