Memory-like Natural Killer Cell and CD19 Antibody-Based Immunotherapy in Combination with Tyrosine Kinase Inhibition Has Antitumor Effects against Ph(-like) Acute Lymphoblastic Leukemia.

IF 8.1 1区医学 Q1 IMMUNOLOGY

Cancer immunology research Pub Date : 2025-06-04 DOI:10.1158/2326-6066.CIR-24-0746

Zoya Eskandarian, Richard Hauch, Sabrina Schuster, Dorothee Winterberg, Hjördis Grabellus, Carlotta Imelmann, Anna-Lena Heitmann, Marlene Goos, Khadija Rudloff, Julia Strauss, Gerrit Wolters-Eisfeld, Peter Nollau, Katja Klausz, Ulrich Schüller, Matthias Peipp, Michael Spohn, Martin A Horstmann

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Abstract

Philadelphia-like acute lymphoblastic leukemia (Ph-like ALL) is a molecularly distinct tyrosine kinase-driven cancer that has a high relapse rate and poor response toward combinatorial chemotherapy. Tyrosine kinase inhibitors (TKI) in the clinic improve the survival of patients with Ph-like ALL. Engineered antibody and cell-based immunotherapies can advance treatment for this genetic subtype of ALL. Allogeneic memory-like natural killer (ML-NK) cells have been used to treat leukemia and have shown a low risk of graft-versus-host reaction, which may be combined with leukemia epitope-targeting antibodies. However, mutation or pathway-directed TKI of Ph-like ALL can interfere with memory function and antibody-dependent NK cell-mediated cytotoxicity (ADCC). In this study, we explored the potential of ML-NK cells and Fc-enhanced CD19-ADCC in combination with TKI directed against kinase-driven leukemia models, including patient-derived xenografted Ph-like ALL. We demonstrate that receptor cross-linking in coculture with K562 feeder cells generated a more robust memory-like state of NK cells than coactivation with soluble IL-12, IL-15, and IL-18, as determined by genomic and functional studies. After receptor cross-linking and subsequent ILs preactivation, the optimized ML-NK cells showed enhanced antileukemic effector functions, which could compensate for exhausted B-cell precursor leukemia-infiltrating primary NK cells. TKI differentially affected multiple features of NK cell biology including viability, expansion, metabolism, receptor repertoire, and cytotoxicity. ADCC was maintained upon exposure to specific Abelson (ABL) or Janus kinase (JAK) inhibitors, in contrast to the multitarget TKI dasatinib impeding spleen tyrosine kinase-dependent ADCC. In conclusion, optimized ML-NK cell and CD19 antibody-based immunotherapy combined with carefully selected TKI demonstrates significant in vitro treatment efficacy in kinase-driven leukemia.

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基于记忆类自然杀伤细胞和CD19抗体的免疫疗法与酪氨酸激酶抑制剂相结合，对Ph（-like）急性淋巴细胞白血病具有抗肿瘤作用。

费城样急性淋巴细胞白血病（Ph-like ALL）是一种分子特异性的酪氨酸激酶驱动的癌症，复发率高，对联合化疗反应差。临床应用酪氨酸激酶抑制剂（TKI）可提高ph样ALL患者的生存率。工程化抗体和基于细胞的免疫疗法可以推进这种基因亚型ALL的治疗。同种异体记忆样自然杀伤（ML-NK）细胞已被用于治疗白血病，并显示出低风险的移植物抗宿主反应，这可能与白血病表位靶向抗体联合使用。然而，ph样ALL的突变或途径导向的TKI可以干扰记忆功能和抗体依赖性NK细胞介导的细胞毒性（ADCC）。在这里，我们探索了ML-NK细胞和fc增强的CD19-ADCC联合TKI治疗激酶驱动白血病模型的潜力，包括患者来源的异种移植ph样ALL。我们通过基因组和功能研究证明，与可溶性白细胞介素（il） 12、15和18共激活相比，与K562饲养细胞共培养的受体交联产生了NK细胞强大的记忆样状态。经过受体交联和随后的il预激活，优化后的ML-NK细胞显示出增强的抗白血病效应功能，可以补偿耗尽的B细胞前体白血病浸润原代NK细胞。TKI对NK细胞生物学的多种特征有不同的影响，包括活力、扩增、代谢、受体库和细胞毒性。与多靶点TKI达沙替尼阻断syk依赖性ADCC相比，ADCC在暴露于特异性ABL或jak抑制剂后仍能维持。综上所述，优化后的ML-NK细胞和CD19抗体免疫疗法联合精心挑选的TKI对激酶驱动白血病的体外治疗效果显著。

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来源期刊

Cancer immunology research ONCOLOGY-IMMUNOLOGY

CiteScore

15.60

自引率

1.00%

发文量

260

期刊介绍： Cancer Immunology Research publishes exceptional original articles showcasing significant breakthroughs across the spectrum of cancer immunology. From fundamental inquiries into host-tumor interactions to developmental therapeutics, early translational studies, and comprehensive analyses of late-stage clinical trials, the journal provides a comprehensive view of the discipline. In addition to original research, the journal features reviews and opinion pieces of broad significance, fostering cross-disciplinary collaboration within the cancer research community. Serving as a premier resource for immunology knowledge in cancer research, the journal drives deeper insights into the host-tumor relationship, potent cancer treatments, and enhanced clinical outcomes. Key areas of interest include endogenous antitumor immunity, tumor-promoting inflammation, cancer antigens, vaccines, antibodies, cellular therapy, cytokines, immune regulation, immune suppression, immunomodulatory effects of cancer treatment, emerging technologies, and insightful clinical investigations with immunological implications.