Despite promising clinical results in a small subset of malignancies, therapies based on engineered chimeric antigen receptor and T-cell receptor T cells are associated with serious adverse events, including cytokine release syndrome and neurotoxicity. These toxicities are sometimes so severe that they significantly hinder the implementation of this therapeutic strategy. For a long time, existing preclinical models failed to predict severe toxicities seen in human clinical trials after engineered T-cell infusion. However, in recent years, there has been a concerted effort to develop models, including humanized mouse models, which can better recapitulate toxicities observed in patients. The Accelerating Development and Improving Access to CAR and TCR-engineered T cell therapy (T2EVOLVE) consortium is a public–private partnership directed at accelerating the preclinical development and increasing access to engineered T-cell therapy for patients with cancer. A key ambition in T2EVOLVE is to design new models and tools with higher predictive value for clinical safety and efficacy, in order to improve and accelerate the selection of lead T-cell products for clinical translation. Herein, we review existing preclinical models that are used to test the safety of engineered T cells. We will also highlight limitations of these models and propose potential measures to improve them.
Time to evolve: predicting engineered T cell-associated toxicity with next-generation models / Donnadieu, Emmanuel; Luu, Maik; Alb, Miriam; Anliker, Brigitte; Arcangeli, Silvia; Bonini, Chiara; De Angelis, Biagio; Choudhary, Rashmi; Espie, David; Galy, Anne; Holland, Cam; Ivics, Zoltán; Kantari-Mimoun, Chahrazade; Kersten, Marie Jose; Köhl, Ulrike; Kuhn, Chantal; Laugel, Bruno; Locatelli, Franco; Marchiq, Ibtissam; Markman, Janet; Moresco, Marta Angiola; Morris, Emma; Negre, Helene; Quintarelli, Concetta; Rade, Michael; Reiche, Kristin; Renner, Matthias; Ruggiero, Eliana; Sanges, Carmen; Stauss, Hans; Themeli, Maria; Van Den Brulle, Jan; Hudecek, Michael; Casucci, Monica. - In: JOURNAL FOR IMMUNOTHERAPY OF CANCER. - ISSN 2051-1426. - 10:5(2022). [10.1136/jitc-2021-003486]
Time to evolve: predicting engineered T cell-associated toxicity with next-generation models
Bonini, Chiara;De Angelis, Biagio;Locatelli, Franco;Quintarelli, Concetta;Sanges, Carmen;
2022
Abstract
Despite promising clinical results in a small subset of malignancies, therapies based on engineered chimeric antigen receptor and T-cell receptor T cells are associated with serious adverse events, including cytokine release syndrome and neurotoxicity. These toxicities are sometimes so severe that they significantly hinder the implementation of this therapeutic strategy. For a long time, existing preclinical models failed to predict severe toxicities seen in human clinical trials after engineered T-cell infusion. However, in recent years, there has been a concerted effort to develop models, including humanized mouse models, which can better recapitulate toxicities observed in patients. The Accelerating Development and Improving Access to CAR and TCR-engineered T cell therapy (T2EVOLVE) consortium is a public–private partnership directed at accelerating the preclinical development and increasing access to engineered T-cell therapy for patients with cancer. A key ambition in T2EVOLVE is to design new models and tools with higher predictive value for clinical safety and efficacy, in order to improve and accelerate the selection of lead T-cell products for clinical translation. Herein, we review existing preclinical models that are used to test the safety of engineered T cells. We will also highlight limitations of these models and propose potential measures to improve them.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
