A Novel Autologous CAR-T Therapy, YTB323, with Preserved T-cell Stemness Shows Enhanced CAR T-cell Efficacy in Preclinical and Early Clinical Development

CAR T-cell product quality and stemness (T(stem)) are major determinants of in vivo expansion, efficacy, and clinical response. Prolonged ex vivo culturing is known to deplete T(stem), affecting clinical outcome. YTB323, a novel autologous CD19-directed CAR T-cell therapy expressing the same validat...

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Autores principales: Dickinson, Michael J., Barba, Pere, Jäger, Ulrich, Shah, Nirav N., Blaise, Didier, Briones, Javier, Shune, Leyla, Boissel, Nicolas, Bondanza, Attilio, Mariconti, Luisa, Marchal, Anne-Laure, Quinn, David S., Yang, Jennifer, Price, Andrew, Sohoni, Akash, Treanor, Louise M., Orlando, Elena J., Mataraza, Jennifer, Davis, Jaclyn, Lu, Darlene, Zhu, Xu, Engels, Boris, Moutouh-de Parseval, Laure, Brogdon, Jennifer L., Moschetta, Michele, Flinn, Ian W.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: American Association for Cancer Research 2023
Materias:
Research Articles
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10481129/
https://www.ncbi.nlm.nih.gov/pubmed/37249512
http://dx.doi.org/10.1158/2159-8290.CD-22-1276
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author Dickinson, Michael J.
Barba, Pere
Jäger, Ulrich
Shah, Nirav N.
Blaise, Didier
Briones, Javier
Shune, Leyla
Boissel, Nicolas
Bondanza, Attilio
Mariconti, Luisa
Marchal, Anne-Laure
Quinn, David S.
Yang, Jennifer
Price, Andrew
Sohoni, Akash
Treanor, Louise M.
Orlando, Elena J.
Mataraza, Jennifer
Davis, Jaclyn
Lu, Darlene
Zhu, Xu
Engels, Boris
Moutouh-de Parseval, Laure
Brogdon, Jennifer L.
Moschetta, Michele
Flinn, Ian W.
author_facet Dickinson, Michael J.
Barba, Pere
Jäger, Ulrich
Shah, Nirav N.
Blaise, Didier
Briones, Javier
Shune, Leyla
Boissel, Nicolas
Bondanza, Attilio
Mariconti, Luisa
Marchal, Anne-Laure
Quinn, David S.
Yang, Jennifer
Price, Andrew
Sohoni, Akash
Treanor, Louise M.
Orlando, Elena J.
Mataraza, Jennifer
Davis, Jaclyn
Lu, Darlene
Zhu, Xu
Engels, Boris
Moutouh-de Parseval, Laure
Brogdon, Jennifer L.
Moschetta, Michele
Flinn, Ian W.
author_sort Dickinson, Michael J.
collection PubMed
description CAR T-cell product quality and stemness (T(stem)) are major determinants of in vivo expansion, efficacy, and clinical response. Prolonged ex vivo culturing is known to deplete T(stem), affecting clinical outcome. YTB323, a novel autologous CD19-directed CAR T-cell therapy expressing the same validated CAR as tisagenlecleucel, is manufactured using a next-generation platform in <2 days. Here, we report the preclinical development and preliminary clinical data of YTB323 in adults with relapsed/refractory diffuse large B-cell lymphoma (r/r DLBCL; NCT03960840). In preclinical mouse models, YTB323 exhibited enhanced in vivo expansion and antitumor activity at lower doses than traditionally manufactured CAR T cells. Clinically, at doses 25-fold lower than tisagenlecleucel, YTB323 showed (i) promising overall safety [cytokine release syndrome (any grade, 35%; grade ≥3, 6%), neurotoxicity (any grade, 25%; grade ≥3, 6%)]; (ii) overall response rates of 75% and 80% for DL1 and DL2, respectively; (iii) comparable CAR T-cell expansion; and (iv) preservation of T-cell phenotype. Current data support the continued development of YTB323 for r/r DLBCL. SIGNIFICANCE: Traditional CAR T-cell manufacturing requires extended ex vivo cell culture, reducing naive and stem cell memory T-cell populations and diminishing antitumor activity. YTB323, which expresses the same validated CAR as tisagenlecleucel, can be manufactured in <2 days while retaining T-cell stemness and enhancing clinical activity at a 25-fold lower dose. See related commentary by Wang, p. 1961. This article is featured in Selected Articles from This Issue, p. 1949
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spelling pubmed-104811292023-09-07 A Novel Autologous CAR-T Therapy, YTB323, with Preserved T-cell Stemness Shows Enhanced CAR T-cell Efficacy in Preclinical and Early Clinical Development Dickinson, Michael J. Barba, Pere Jäger, Ulrich Shah, Nirav N. Blaise, Didier Briones, Javier Shune, Leyla Boissel, Nicolas Bondanza, Attilio Mariconti, Luisa Marchal, Anne-Laure Quinn, David S. Yang, Jennifer Price, Andrew Sohoni, Akash Treanor, Louise M. Orlando, Elena J. Mataraza, Jennifer Davis, Jaclyn Lu, Darlene Zhu, Xu Engels, Boris Moutouh-de Parseval, Laure Brogdon, Jennifer L. Moschetta, Michele Flinn, Ian W. Cancer Discov Research Articles CAR T-cell product quality and stemness (T(stem)) are major determinants of in vivo expansion, efficacy, and clinical response. Prolonged ex vivo culturing is known to deplete T(stem), affecting clinical outcome. YTB323, a novel autologous CD19-directed CAR T-cell therapy expressing the same validated CAR as tisagenlecleucel, is manufactured using a next-generation platform in <2 days. Here, we report the preclinical development and preliminary clinical data of YTB323 in adults with relapsed/refractory diffuse large B-cell lymphoma (r/r DLBCL; NCT03960840). In preclinical mouse models, YTB323 exhibited enhanced in vivo expansion and antitumor activity at lower doses than traditionally manufactured CAR T cells. Clinically, at doses 25-fold lower than tisagenlecleucel, YTB323 showed (i) promising overall safety [cytokine release syndrome (any grade, 35%; grade ≥3, 6%), neurotoxicity (any grade, 25%; grade ≥3, 6%)]; (ii) overall response rates of 75% and 80% for DL1 and DL2, respectively; (iii) comparable CAR T-cell expansion; and (iv) preservation of T-cell phenotype. Current data support the continued development of YTB323 for r/r DLBCL. SIGNIFICANCE: Traditional CAR T-cell manufacturing requires extended ex vivo cell culture, reducing naive and stem cell memory T-cell populations and diminishing antitumor activity. YTB323, which expresses the same validated CAR as tisagenlecleucel, can be manufactured in <2 days while retaining T-cell stemness and enhancing clinical activity at a 25-fold lower dose. See related commentary by Wang, p. 1961. This article is featured in Selected Articles from This Issue, p. 1949 American Association for Cancer Research 2023-09-06 2023-05-30 /pmc/articles/PMC10481129/ /pubmed/37249512 http://dx.doi.org/10.1158/2159-8290.CD-22-1276 Text en ©2023 The Authors; Published by the American Association for Cancer Research https://creativecommons.org/licenses/by-nc-nd/4.0/This open access article is distributed under the Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International (CC BY-NC-ND 4.0) license.
spellingShingle Research Articles
Dickinson, Michael J.
Barba, Pere
Jäger, Ulrich
Shah, Nirav N.
Blaise, Didier
Briones, Javier
Shune, Leyla
Boissel, Nicolas
Bondanza, Attilio
Mariconti, Luisa
Marchal, Anne-Laure
Quinn, David S.
Yang, Jennifer
Price, Andrew
Sohoni, Akash
Treanor, Louise M.
Orlando, Elena J.
Mataraza, Jennifer
Davis, Jaclyn
Lu, Darlene
Zhu, Xu
Engels, Boris
Moutouh-de Parseval, Laure
Brogdon, Jennifer L.
Moschetta, Michele
Flinn, Ian W.
A Novel Autologous CAR-T Therapy, YTB323, with Preserved T-cell Stemness Shows Enhanced CAR T-cell Efficacy in Preclinical and Early Clinical Development
title A Novel Autologous CAR-T Therapy, YTB323, with Preserved T-cell Stemness Shows Enhanced CAR T-cell Efficacy in Preclinical and Early Clinical Development
title_full A Novel Autologous CAR-T Therapy, YTB323, with Preserved T-cell Stemness Shows Enhanced CAR T-cell Efficacy in Preclinical and Early Clinical Development
title_fullStr A Novel Autologous CAR-T Therapy, YTB323, with Preserved T-cell Stemness Shows Enhanced CAR T-cell Efficacy in Preclinical and Early Clinical Development
title_full_unstemmed A Novel Autologous CAR-T Therapy, YTB323, with Preserved T-cell Stemness Shows Enhanced CAR T-cell Efficacy in Preclinical and Early Clinical Development
title_short A Novel Autologous CAR-T Therapy, YTB323, with Preserved T-cell Stemness Shows Enhanced CAR T-cell Efficacy in Preclinical and Early Clinical Development
title_sort novel autologous car-t therapy, ytb323, with preserved t-cell stemness shows enhanced car t-cell efficacy in preclinical and early clinical development
topic Research Articles
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10481129/
https://www.ncbi.nlm.nih.gov/pubmed/37249512
http://dx.doi.org/10.1158/2159-8290.CD-22-1276
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