Uncovering the mode of action of engineered T cells in patient cancer organoids

Extending the success of cellular immunotherapies against blood cancers to the realm of solid tumors will require improved in vitro models that reveal therapeutic modes of action at the molecular level. Here we describe a system, called BEHAV3D, developed to study the dynamic interactions of immune...

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Autores principales: Dekkers, Johanna F., Alieva, Maria, Cleven, Astrid, Keramati, Farid, Wezenaar, Amber K. L., van Vliet, Esmée J., Puschhof, Jens, Brazda, Peter, Johanna, Inez, Meringa, Angelo D., Rebel, Heggert G., Buchholz, Maj-Britt, Barrera Román, Mario, Zeeman, Amber L., de Blank, Sam, Fasci, Domenico, Geurts, Maarten H., Cornel, Annelisa M., Driehuis, Else, Millen, Rosemary, Straetemans, Trudy, Nicolasen, Mara J. T., Aarts-Riemens, Tineke, Ariese, Hendrikus C. R., Johnson, Hannah R., van Ineveld, Ravian L., Karaiskaki, Froso, Kopper, Oded, Bar-Ephraim, Yotam E., Kretzschmar, Kai, Eggermont, Alexander M. M., Nierkens, Stefan, Wehrens, Ellen J., Stunnenberg, Henk G., Clevers, Hans, Kuball, Jürgen, Sebestyen, Zsolt, Rios, Anne C.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Nature Publishing Group US 2022
Materias:
Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9849137/
https://www.ncbi.nlm.nih.gov/pubmed/35879361
http://dx.doi.org/10.1038/s41587-022-01397-w
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author Dekkers, Johanna F.
Alieva, Maria
Cleven, Astrid
Keramati, Farid
Wezenaar, Amber K. L.
van Vliet, Esmée J.
Puschhof, Jens
Brazda, Peter
Johanna, Inez
Meringa, Angelo D.
Rebel, Heggert G.
Buchholz, Maj-Britt
Barrera Román, Mario
Zeeman, Amber L.
de Blank, Sam
Fasci, Domenico
Geurts, Maarten H.
Cornel, Annelisa M.
Driehuis, Else
Millen, Rosemary
Straetemans, Trudy
Nicolasen, Mara J. T.
Aarts-Riemens, Tineke
Ariese, Hendrikus C. R.
Johnson, Hannah R.
van Ineveld, Ravian L.
Karaiskaki, Froso
Kopper, Oded
Bar-Ephraim, Yotam E.
Kretzschmar, Kai
Eggermont, Alexander M. M.
Nierkens, Stefan
Wehrens, Ellen J.
Stunnenberg, Henk G.
Clevers, Hans
Kuball, Jürgen
Sebestyen, Zsolt
Rios, Anne C.
author_facet Dekkers, Johanna F.
Alieva, Maria
Cleven, Astrid
Keramati, Farid
Wezenaar, Amber K. L.
van Vliet, Esmée J.
Puschhof, Jens
Brazda, Peter
Johanna, Inez
Meringa, Angelo D.
Rebel, Heggert G.
Buchholz, Maj-Britt
Barrera Román, Mario
Zeeman, Amber L.
de Blank, Sam
Fasci, Domenico
Geurts, Maarten H.
Cornel, Annelisa M.
Driehuis, Else
Millen, Rosemary
Straetemans, Trudy
Nicolasen, Mara J. T.
Aarts-Riemens, Tineke
Ariese, Hendrikus C. R.
Johnson, Hannah R.
van Ineveld, Ravian L.
Karaiskaki, Froso
Kopper, Oded
Bar-Ephraim, Yotam E.
Kretzschmar, Kai
Eggermont, Alexander M. M.
Nierkens, Stefan
Wehrens, Ellen J.
Stunnenberg, Henk G.
Clevers, Hans
Kuball, Jürgen
Sebestyen, Zsolt
Rios, Anne C.
author_sort Dekkers, Johanna F.
collection PubMed
description Extending the success of cellular immunotherapies against blood cancers to the realm of solid tumors will require improved in vitro models that reveal therapeutic modes of action at the molecular level. Here we describe a system, called BEHAV3D, developed to study the dynamic interactions of immune cells and patient cancer organoids by means of imaging and transcriptomics. We apply BEHAV3D to live-track >150,000 engineered T cells cultured with patient-derived, solid-tumor organoids, identifying a ‘super engager’ behavioral cluster comprising T cells with potent serial killing capacity. Among other T cell concepts we also study cancer metabolome-sensing engineered T cells (TEGs) and detect behavior-specific gene signatures that include a group of 27 genes with no previously described T cell function that are expressed by super engager killer TEGs. We further show that type I interferon can prime resistant organoids for TEG-mediated killing. BEHAV3D is a promising tool for the characterization of behavioral-phenotypic heterogeneity of cellular immunotherapies and may support the optimization of personalized solid-tumor-targeting cell therapies.
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spelling pubmed-98491372023-01-20 Uncovering the mode of action of engineered T cells in patient cancer organoids Dekkers, Johanna F. Alieva, Maria Cleven, Astrid Keramati, Farid Wezenaar, Amber K. L. van Vliet, Esmée J. Puschhof, Jens Brazda, Peter Johanna, Inez Meringa, Angelo D. Rebel, Heggert G. Buchholz, Maj-Britt Barrera Román, Mario Zeeman, Amber L. de Blank, Sam Fasci, Domenico Geurts, Maarten H. Cornel, Annelisa M. Driehuis, Else Millen, Rosemary Straetemans, Trudy Nicolasen, Mara J. T. Aarts-Riemens, Tineke Ariese, Hendrikus C. R. Johnson, Hannah R. van Ineveld, Ravian L. Karaiskaki, Froso Kopper, Oded Bar-Ephraim, Yotam E. Kretzschmar, Kai Eggermont, Alexander M. M. Nierkens, Stefan Wehrens, Ellen J. Stunnenberg, Henk G. Clevers, Hans Kuball, Jürgen Sebestyen, Zsolt Rios, Anne C. Nat Biotechnol Article Extending the success of cellular immunotherapies against blood cancers to the realm of solid tumors will require improved in vitro models that reveal therapeutic modes of action at the molecular level. Here we describe a system, called BEHAV3D, developed to study the dynamic interactions of immune cells and patient cancer organoids by means of imaging and transcriptomics. We apply BEHAV3D to live-track >150,000 engineered T cells cultured with patient-derived, solid-tumor organoids, identifying a ‘super engager’ behavioral cluster comprising T cells with potent serial killing capacity. Among other T cell concepts we also study cancer metabolome-sensing engineered T cells (TEGs) and detect behavior-specific gene signatures that include a group of 27 genes with no previously described T cell function that are expressed by super engager killer TEGs. We further show that type I interferon can prime resistant organoids for TEG-mediated killing. BEHAV3D is a promising tool for the characterization of behavioral-phenotypic heterogeneity of cellular immunotherapies and may support the optimization of personalized solid-tumor-targeting cell therapies. Nature Publishing Group US 2022-07-25 2023 /pmc/articles/PMC9849137/ /pubmed/35879361 http://dx.doi.org/10.1038/s41587-022-01397-w Text en © The Author(s) 2022 https://creativecommons.org/licenses/by/4.0/Open Access This article is licensed under a Creative Commons Attribution 4.0 International License, which permits use, sharing, adaptation, distribution and reproduction in any medium or format, as long as you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons license, and indicate if changes were made. The images or other third party material in this article are included in the article’s Creative Commons license, unless indicated otherwise in a credit line to the material. If material is not included in the article’s Creative Commons license and your intended use is not permitted by statutory regulation or exceeds the permitted use, you will need to obtain permission directly from the copyright holder. To view a copy of this license, visit http://creativecommons.org/licenses/by/4.0/ (https://creativecommons.org/licenses/by/4.0/) .
spellingShingle Article
Dekkers, Johanna F.
Alieva, Maria
Cleven, Astrid
Keramati, Farid
Wezenaar, Amber K. L.
van Vliet, Esmée J.
Puschhof, Jens
Brazda, Peter
Johanna, Inez
Meringa, Angelo D.
Rebel, Heggert G.
Buchholz, Maj-Britt
Barrera Román, Mario
Zeeman, Amber L.
de Blank, Sam
Fasci, Domenico
Geurts, Maarten H.
Cornel, Annelisa M.
Driehuis, Else
Millen, Rosemary
Straetemans, Trudy
Nicolasen, Mara J. T.
Aarts-Riemens, Tineke
Ariese, Hendrikus C. R.
Johnson, Hannah R.
van Ineveld, Ravian L.
Karaiskaki, Froso
Kopper, Oded
Bar-Ephraim, Yotam E.
Kretzschmar, Kai
Eggermont, Alexander M. M.
Nierkens, Stefan
Wehrens, Ellen J.
Stunnenberg, Henk G.
Clevers, Hans
Kuball, Jürgen
Sebestyen, Zsolt
Rios, Anne C.
Uncovering the mode of action of engineered T cells in patient cancer organoids
title Uncovering the mode of action of engineered T cells in patient cancer organoids
title_full Uncovering the mode of action of engineered T cells in patient cancer organoids
title_fullStr Uncovering the mode of action of engineered T cells in patient cancer organoids
title_full_unstemmed Uncovering the mode of action of engineered T cells in patient cancer organoids
title_short Uncovering the mode of action of engineered T cells in patient cancer organoids
title_sort uncovering the mode of action of engineered t cells in patient cancer organoids
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9849137/
https://www.ncbi.nlm.nih.gov/pubmed/35879361
http://dx.doi.org/10.1038/s41587-022-01397-w
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