Capivasertib enhances chimeric antigen receptor T cell activity in preclinical models of B cell lymphoma.

IF 4.7 2区医学 Q2 MEDICINE, RESEARCH & EXPERIMENTAL Molecular Therapy-Methods & Clinical Development Pub Date : 2025-01-24 eCollection Date: 2025-03-13 DOI:10.1016/j.omtm.2025.101421

Hui-Ju Hsieh, Ryan Urak, Mary C Clark, Larry W Kwak, Stephen J Forman, Xiuli Wang

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Abstract

Phosphatidylinositol 3-kinase (PI3K)/protein kinase B (AKT) signaling is involved in the growth of normal and cancer cells and is crucial for T cell activation. Previously, we have shown that AKT Inhibitor VIII, a selective AKT-1/2 inhibitor, during chimeric antigen receptor (CAR) T cell manufacturing, improves CAR T cell function in preclinical models. Although AKT Inhibitor VIII could enhance CAR T cell function, AKT Inhibitor VIII is not a clinical-grade compound. However, pan-AKT inhibitors have been applied against cancers with PIK3CA/AKT/PTEN alterations in clinical trials. We evaluated ex vivo and in vivo strategies of enhancing CAR T cell therapeutic effect using the pan-AKT inhibitor capivasertib. We found that ex vivo 0.25 μM capivasertib treatment during the period of T cell stimulation during manufacture enhanced the antitumor activity of CAR T cells in B cell lymphoma mouse models. Mechanistically, capivasertib changed gene and protein expression patterns related to the functions of memory and effector CAR T cells. Furthermore, in vivo combination therapy of capivasertib and CD19-specific CAR T cells led to improved early response to and persistence of functional CAR T cells in mice bearing PTEN-deficient lymphoma cells compared to CAR T cells alone. Capivasertib exerts a similar function to AKT Inhibitor VIII in modulating CAR T cells, and combining CAR T cell therapy with capivasertib both ex vivo and in vivo offers the potential to improve patient outcomes. Since PTEN deficiency is common in cancer and is the main mechanism for capivasertib function, combination therapy may provide an alternative solution for the challenges of CAR T cell therapy.

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Capivasertib增强嵌合抗原受体T细胞在B细胞淋巴瘤临床前模型中的活性。

磷脂酰肌醇3-激酶(PI3K)/蛋白激酶B （AKT）信号通路参与正常细胞和癌细胞的生长，对T细胞的激活至关重要。在此之前，我们已经在临床前模型中证明了AKT抑制剂VIII（一种选择性AKT-1/2抑制剂）在嵌合抗原受体（CAR） T细胞制造过程中可以改善CAR - T细胞的功能。虽然AKT抑制剂VIII可以增强CAR - T细胞功能，但AKT抑制剂VIII不是临床级化合物。然而，在临床试验中，泛AKT抑制剂已应用于PIK3CA/AKT/PTEN改变的癌症。我们评估了使用泛akt抑制剂capivasertib增强CAR - T细胞治疗效果的体内和体外策略。我们发现，在制造过程中T细胞刺激期间，0.25 μM capivasertib的体外处理增强了B细胞淋巴瘤小鼠模型中CAR - T细胞的抗肿瘤活性。从机制上讲，capivasertib改变了与记忆和效应CAR - T细胞功能相关的基因和蛋白质表达模式。此外，与单独使用CAR - T细胞相比，capivasertib和cd19特异性CAR - T细胞在体内联合治疗可改善携带pten缺陷淋巴瘤细胞的小鼠对功能性CAR - T细胞的早期反应和持久性。Capivasertib在调节CAR - T细胞方面具有与AKT Inhibitor VIII相似的功能，并且将Capivasertib与CAR - T细胞治疗结合在体内和体外都有可能改善患者的预后。由于PTEN缺乏在癌症中很常见，并且是capivasertib功能的主要机制，因此联合治疗可能为CAR - T细胞治疗的挑战提供另一种解决方案。

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来源期刊

Molecular Therapy-Methods & Clinical Development Biochemistry, Genetics and Molecular Biology-Molecular Biology

CiteScore

9.90

自引率

4.30%

发文量

163

审稿时长

12 weeks

期刊介绍： The aim of Molecular Therapy—Methods & Clinical Development is to build upon the success of Molecular Therapy in publishing important peer-reviewed methods and procedures, as well as translational advances in the broad array of fields under the molecular therapy umbrella. Topics of particular interest within the journal''s scope include: Gene vector engineering and production, Methods for targeted genome editing and engineering, Methods and technology development for cell reprogramming and directed differentiation of pluripotent cells, Methods for gene and cell vector delivery, Development of biomaterials and nanoparticles for applications in gene and cell therapy and regenerative medicine, Analysis of gene and cell vector biodistribution and tracking, Pharmacology/toxicology studies of new and next-generation vectors, Methods for cell isolation, engineering, culture, expansion, and transplantation, Cell processing, storage, and banking for therapeutic application, Preclinical and QC/QA assay development, Translational and clinical scale-up and Good Manufacturing procedures and process development, Clinical protocol development, Computational and bioinformatic methods for analysis, modeling, or visualization of biological data, Negotiating the regulatory approval process and obtaining such approval for clinical trials.

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