The Journal of Clinical Investigation (Aug 2022)

An optimized bicistronic chimeric antigen receptor against GPC2 or CD276 overcomes heterogeneous expression in neuroblastoma

  • Meijie Tian,
  • Adam T. Cheuk,
  • Jun S. Wei,
  • Abdalla Abdelmaksoud,
  • Hsien-Chao Chou,
  • David Milewski,
  • Michael C. Kelly,
  • Young K. Song,
  • Christopher M. Dower,
  • Nan Li,
  • Haiying Qin,
  • Yong Yean Kim,
  • Jerry T. Wu,
  • Xinyu Wen,
  • Mehdi Benzaoui,
  • Katherine E. Masih,
  • Xiaolin Wu,
  • Zhongmei Zhang,
  • Sherif Badr,
  • Naomi Taylor,
  • Brad St. Croix,
  • Mitchell Ho,
  • Javed Khan

Journal volume & issue
Vol. 132, no. 16

Abstract

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Chimeric antigen receptor (CAR) T cell therapies targeting single antigens have performed poorly in clinical trials for solid tumors due to heterogenous expression of tumor-associated antigens (TAAs), limited T cell persistence, and T cell exhaustion. Here, we aimed to identify optimal CARs against glypican 2 (GPC2) or CD276 (B7-H3), which were highly but heterogeneously expressed in neuroblastoma (NB), a lethal extracranial solid tumor of childhood. First, we examined CAR T cell expansion in the presence of targets by digital droplet PCR. Next, using pooled competitive optimization of CAR by cellular indexing of transcriptomes and epitopes by sequencing (CITE-Seq), termed P-COCC, we simultaneously analyzed protein and transcriptome expression of CAR T cells to identify high-activity CARs. Finally, we performed cytotoxicity assays to identify the most effective CAR against each target and combined the CARs into a bicistronic “OR” CAR (BiCisCAR). BiCisCAR T cells effectively eliminated tumor cells expressing GPC2 or CD276. Furthermore, the BiCisCAR T cells demonstrated prolonged persistence and resistance to exhaustion when compared with CARs targeting a single antigen. This study illustrated that targeting multiple TAAs with BiCisCAR may overcome heterogenous expression of target antigens in solid tumors and identified a potent, clinically relevant CAR against NB. Moreover, our multimodal approach integrating competitive expansion, P-COCC, and cytotoxicity assays is an effective strategy to identify potent CARs among a pool of candidates.

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