推车
体内
淋巴瘤
体外
单元格排序
癌症研究
强度(物理)
医学
流式细胞术
生物
免疫学
机械工程
生物化学
物理
生物技术
量子力学
工程类
作者
A Caballero,Laura Escribà-García,Paula Pujol-Fernández,Eva Escudero-López,Cristina Ujaldón-Miró,Rosanna Montserrat-Torres,Jorge Sierra,Carmen Álvarez‐Fernández,Javier Briones
标识
DOI:10.1038/s41417-022-00518-6
摘要
Identifying factors that ameliorates clinical outcomes following CART therapy represents an unmet need. We hypothesized that CAR expression level would have a significant impact on CART efficacy and tested this with CAR30+ TSCM-LIKE enriched cells. By sorting T-cells according to CAR mean fluorescence intensity in two markedly different populations (CARHI and CARLO), we showed that a high CAR expression enhances antitumor efficacy in vitro, that is sustained after sequential re-exposures to tumor cells and is not associated with T-cell exhaustion or differentiation. Furthermore, we found a correlation between high surface CAR expression and antitumor effect with CAR19+ T-cells, thus validating our findings with CAR30. Definitive proof of CARHI T-cells improved antitumor efficacy was demonstrated in a human Hodgkin's lymphoma xenograft mouse model, where CAR30-TSCM-LIKE enriched products with high intensity of CAR expression achieved superior tumor control in vivo and longer survival than those with a low intensity of CAR expression. Our data suggest that modulation of CAR intensity of expression represents an additional strategy to increase CART therapy clinical efficacy.
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