HER2 和 HLA-A*02 双 CAR-T 细胞利用 LOH 在 NOT 逻辑门中解决靶标外肿瘤毒性。

HER2 and HLA-A*02 dual CAR-T cells utilize LOH in a NOT logic gate to address on-target off-tumor toxicity.

机构信息

Research, ImmPACT-Bio, Rehovot, Israel.

Research, ImmPACT-Bio US, West Hills, California, USA.

出版信息

J Immunother Cancer. 2023 Dec 14;11(12):e007426. doi: 10.1136/jitc-2023-007426.

DOI:10.1136/jitc-2023-007426

PMID:38097342

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10729064/

Abstract

BACKGROUND

One of the major challenges in chimeric antigen receptor (CAR)-T cell therapy for solid tumors is the potential for on-target off-tumor toxicity due to the expression of CAR tumor antigens in essential tissues and organs. Here, we describe a dual CAR NOT gate incorporating an inhibitory CAR (iCAR) recognizing HLA-A*02 ("A2") that enables effective treatment with a potent HER2 activating CAR (aCAR) in the context of A2 loss of heterozygosity (LOH).

METHODS

A CAR-T cell screen was conducted to identify inhibitory domains derived from natural immune receptors (iDomains) to be used in a NOT gate, to kill A2 HER2 lung cancer cell lines but spare A2 HER2 lung cancer cell-lines with high specificity. The extensive analysis of lead candidates included T-cell activation and killing, assays of reversibility and durability in sequential challenges, target cell specificity in mixed 3D spheroids and 2D cultures, and the characterization of CAR expression level and cell-trafficking.

RESULTS

A leukocyte immunoglobulin-like receptor B1 (LIR1) iDomain iCAR was identified as most effective in regulating the cytotoxicity of a second generation HER2 aCAR. Target transfer experiments demonstrated that the 'on' and 'off' cell state of the LIR1 NOT gate CAR-T cell is both durable and reversible. Protection required iCAR signaling and was associated with reduced aCAR and iCAR surface expression. iCAR regulation was sufficient to generate high target specificity in a 3D adjacent spheroid assay designed to model the interface between clonal A2 LOH foci and normal tissue. However, we observed significant bystander killing of A2 cells in admix culture through aCAR dependent and independent mechanisms. LIR1 NOT gate CAR-T cells conferred protection against H1703-A2 tumors and high efficacy against H1703-A2 tumors in-vivo. We observed that the iCAR is inactive in A2 donors due to cis-binding, but Clustered Regularly Interspaced Short Palindromic Repeats (CRISPR) knockout of HLA-A fully restored iCAR activity.

CONCLUSIONS

We have preclinically validated an iCAR NOT gate technology broadly applicable for targeting HER2 expression in the context of A2 LOH. This approach is designed to prevent off tumor toxicity while allowing highly potent antitumor activity.

摘要

背景

嵌合抗原受体 (CAR)-T 细胞疗法治疗实体瘤的主要挑战之一是由于 CAR 肿瘤抗原在重要组织和器官中的表达，存在潜在的靶向脱靶毒性。在这里，我们描述了一种包含识别 HLA-A*02（“A2”）的抑制性 CAR（iCAR）的双 CAR NOT 门控，该门控可在 A2 杂合性丢失（LOH）的情况下，利用有效的 HER2 激活 CAR（aCAR）进行治疗。

方法

进行了 CAR-T 细胞筛选，以鉴定源自天然免疫受体 (iDomains) 的抑制性结构域，用于 NOT 门控，以高度特异性杀伤 A2 HER2 肺癌细胞系，但不杀伤 A2 HER2 肺癌细胞系。对候选物的广泛分析包括 T 细胞激活和杀伤、连续挑战中逆转和耐久性测定、混合 3D 球体和 2D 培养物中的靶细胞特异性以及 CAR 表达水平和细胞迁移特征的表征。

结果

鉴定出白细胞免疫球蛋白样受体 B1（LIR1）i 域 iCAR 是调节第二代 HER2 aCAR 细胞毒性最有效的方法。靶细胞转移实验表明，LIR1 NOT 门控 CAR-T 细胞的“开启”和“关闭”细胞状态既持久又可逆。保护需要 iCAR 信号，并且与减少的 aCAR 和 iCAR 表面表达相关。iCAR 调节足以在设计用于模拟克隆 A2 LOH 焦点与正常组织之间界面的 3D 相邻球体测定中产生高靶特异性。然而，我们观察到在混合培养物中通过 aCAR 依赖和独立的机制对 A2 细胞进行了明显的旁观者杀伤。LIR1 NOT 门控 CAR-T 细胞赋予了对 H1703-A2 肿瘤的保护作用，并在体内对 H1703-A2 肿瘤具有高疗效。我们观察到，由于顺式结合，iCAR 在 A2 供体中无活性，但 HLA-A 的 Clustered Regularly Interspaced Short Palindromic Repeats（CRISPR）敲除完全恢复了 iCAR 活性。

结论

我们已经在临床前验证了一种广泛适用于 A2 LOH 情况下 HER2 表达靶向的 iCAR NOT 门控技术。该方法旨在防止脱靶毒性，同时允许高度有效的抗肿瘤活性。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9909/10729064/405cac16e947/jitc-2023-007426f01.jpg

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HER2 和 HLA-A*02 双 CAR-T 细胞利用 LOH 在 NOT 逻辑门中解决靶标外肿瘤毒性。

HER2 and HLA-A*02 dual CAR-T cells utilize LOH in a NOT logic gate to address on-target off-tumor toxicity.

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BACKGROUND

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