posted on 2023-04-03, 23:42authored byDongrui Wang, Briana C. Prager, Ryan C. Gimple, Brenda Aguilar, Darya Alizadeh, Hongzhen Tang, Deguan Lv, Renate Starr, Alfonso Brito, Qiulian Wu, Leo J.Y. Kim, Zhixin Qiu, Peng Lin, Michael H. Lorenzini, Behnam Badie, Stephen J. Forman, Qi Xie, Christine E. Brown, Jeremy N. Rich
CRISPR screening reads on CAR T cells and GSCs
Funding
NIH
History
ARTICLE ABSTRACT
Glioblastoma (GBM) contains self-renewing GBM stem cells (GSC) potentially amenable to immunologic targeting, but chimeric antigen receptor (CAR) T-cell therapy has demonstrated limited clinical responses in GBM. Here, we interrogated molecular determinants of CAR-mediated GBM killing through whole-genome CRISPR screens in both CAR T cells and patient-derived GSCs. Screening of CAR T cells identified dependencies for effector functions, including TLE4 and IKZF2. Targeted knockout of these genes enhanced CAR antitumor efficacy. Bulk and single-cell RNA sequencing of edited CAR T cells revealed transcriptional profiles of superior effector function and inhibited exhaustion responses. Reciprocal screening of GSCs identified genes essential for susceptibility to CAR-mediated killing, including RELA and NPLOC4, the knockout of which altered tumor–immune signaling and increased responsiveness of CAR therapy. Overall, CRISPR screening of CAR T cells and GSCs discovered avenues for enhancing CAR therapeutic efficacy against GBM, with the potential to be extended to other solid tumors.
Reciprocal CRISPR screening identified genes in both CAR T cells and tumor cells regulating the potency of CAR T-cell cytotoxicity, informing molecular targeting strategies to potentiate CAR T-cell antitumor efficacy and elucidate genetic modifications of tumor cells in combination with CAR T cells to advance immuno-oncotherapy.This article is highlighted in the In This Issue feature, p. 995