Laura Volta, Renier Myburgh, Mara Hofstetter, Christian Koch, Jonathan D. Kiefer, Celeste Gobbi, Francesco Manfredi, Kathrin Zimmermann, Philipp Kaufmann, Serena Fazio, Christian Pellegrino, Norman F. Russkamp, Danielle Villars, Mattia Matasci, Monique Maurer, Jan Mueller, Florin Schneiter, Paul Büschl, Niclas Harrer, Jacqueline Mock, Stefan Balabanov, César Nombela-Arrieta, Timm Schroeder, Dario Neri, Markus G. Manz
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Therefore, to still apply surface-directed immunotherapy in this disease setting, time-limited combined immune-targeting of AML cells and healthy HSPCs, followed by hematopoietic stem cell transplantation (HSCT), might be a viable therapeutic approach. To explore this, we generated a recombinant single-chain variable fragment-based bispecific T-cell engaging and activating antibody directed against CD3 on T-cells and CD117, the surface receptor for stem cell factor, expressed by both AML cells and healthy HSPCs. Bispecific CD117xCD3 targeting induced lysis of CD117-positive healthy human HSPCs, AML cell lines and patient-derived AML blasts in the presence of T-cells at subnanomolar concentrations in vitro. Furthermore, in immunocompromised mice, engrafted with human CD117-expressing leukemia cells and human T-cells, the bispecific molecule efficiently prevented leukemia growth in vivo. Additionally, in immunodeficient mice transplanted with healthy human HSPCs, the molecule decreased the number of CD117-positive cells in vivo. Therefore, bispecific CD117xCD3 targeting might be developed clinically in order to reduce CD117-expressing leukemia cells and HSPCs prior to HSCT.</p>","PeriodicalId":12982,"journal":{"name":"HemaSphere","volume":"8 11","pages":""},"PeriodicalIF":7.6000,"publicationDate":"2024-11-19","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"https://onlinelibrary.wiley.com/doi/epdf/10.1002/hem3.70055","citationCount":"0","resultStr":"{\"title\":\"A single-chain variable fragment-based bispecific T-cell activating antibody against CD117 enables T-cell mediated lysis of acute myeloid leukemia and hematopoietic stem and progenitor cells\",\"authors\":\"Laura Volta, Renier Myburgh, Mara Hofstetter, Christian Koch, Jonathan D. Kiefer, Celeste Gobbi, Francesco Manfredi, Kathrin Zimmermann, Philipp Kaufmann, Serena Fazio, Christian Pellegrino, Norman F. Russkamp, Danielle Villars, Mattia Matasci, Monique Maurer, Jan Mueller, Florin Schneiter, Paul Büschl, Niclas Harrer, Jacqueline Mock, Stefan Balabanov, César Nombela-Arrieta, Timm Schroeder, Dario Neri, Markus G. Manz\",\"doi\":\"10.1002/hem3.70055\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<p>Acute myeloid leukemia (AML) derives from hematopoietic stem and progenitor cells (HSPCs). To date, no AML-exclusive, non-HSPC-expressed cell-surface target molecules for AML selective immunotherapy have been identified. Therefore, to still apply surface-directed immunotherapy in this disease setting, time-limited combined immune-targeting of AML cells and healthy HSPCs, followed by hematopoietic stem cell transplantation (HSCT), might be a viable therapeutic approach. To explore this, we generated a recombinant single-chain variable fragment-based bispecific T-cell engaging and activating antibody directed against CD3 on T-cells and CD117, the surface receptor for stem cell factor, expressed by both AML cells and healthy HSPCs. Bispecific CD117xCD3 targeting induced lysis of CD117-positive healthy human HSPCs, AML cell lines and patient-derived AML blasts in the presence of T-cells at subnanomolar concentrations in vitro. Furthermore, in immunocompromised mice, engrafted with human CD117-expressing leukemia cells and human T-cells, the bispecific molecule efficiently prevented leukemia growth in vivo. Additionally, in immunodeficient mice transplanted with healthy human HSPCs, the molecule decreased the number of CD117-positive cells in vivo. 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引用次数: 0
摘要
急性髓性白血病(AML)源自造血干细胞和祖细胞(HSPC)。迄今为止,还没有发现急性髓性白血病专属的、非 HSPC 表达的细胞表面靶分子可用于急性髓性白血病的选择性免疫疗法。因此,要想在这种疾病中继续应用表面定向免疫疗法,对AML细胞和健康的HSPCs进行有时间限制的联合免疫靶向治疗,然后进行造血干细胞移植(HSCT),可能是一种可行的治疗方法。为了探索这一点,我们生成了一种基于重组单链可变片段的双特异性T细胞吸引和激活抗体,该抗体针对T细胞上的CD3和CD117(AML细胞和健康HSPC均表达的干细胞因子表面受体)。双特异性 CD117xCD3 靶向诱导体外亚纳摩尔浓度的 CD117 阳性健康人类 HSPC、AML 细胞系和患者来源的 AML 囊肿在 T 细胞存在的情况下发生裂解。此外,在接种了人类 CD117 表达的白血病细胞和人类 T 细胞的免疫缺陷小鼠体内,这种双特异性分子能有效阻止白血病的生长。此外,在移植了健康人类 HSPCs 的免疫缺陷小鼠体内,该分子还能减少 CD117 阳性细胞的数量。因此,双特异性 CD117xCD3 靶向可用于临床开发,以便在造血干细胞移植前减少 CD117 表达的白血病细胞和 HSPC。
A single-chain variable fragment-based bispecific T-cell activating antibody against CD117 enables T-cell mediated lysis of acute myeloid leukemia and hematopoietic stem and progenitor cells
Acute myeloid leukemia (AML) derives from hematopoietic stem and progenitor cells (HSPCs). To date, no AML-exclusive, non-HSPC-expressed cell-surface target molecules for AML selective immunotherapy have been identified. Therefore, to still apply surface-directed immunotherapy in this disease setting, time-limited combined immune-targeting of AML cells and healthy HSPCs, followed by hematopoietic stem cell transplantation (HSCT), might be a viable therapeutic approach. To explore this, we generated a recombinant single-chain variable fragment-based bispecific T-cell engaging and activating antibody directed against CD3 on T-cells and CD117, the surface receptor for stem cell factor, expressed by both AML cells and healthy HSPCs. Bispecific CD117xCD3 targeting induced lysis of CD117-positive healthy human HSPCs, AML cell lines and patient-derived AML blasts in the presence of T-cells at subnanomolar concentrations in vitro. Furthermore, in immunocompromised mice, engrafted with human CD117-expressing leukemia cells and human T-cells, the bispecific molecule efficiently prevented leukemia growth in vivo. Additionally, in immunodeficient mice transplanted with healthy human HSPCs, the molecule decreased the number of CD117-positive cells in vivo. Therefore, bispecific CD117xCD3 targeting might be developed clinically in order to reduce CD117-expressing leukemia cells and HSPCs prior to HSCT.
期刊介绍:
HemaSphere, as a publication, is dedicated to disseminating the outcomes of profoundly pertinent basic, translational, and clinical research endeavors within the field of hematology. The journal actively seeks robust studies that unveil novel discoveries with significant ramifications for hematology.
In addition to original research, HemaSphere features review articles and guideline articles that furnish lucid synopses and discussions of emerging developments, along with recommendations for patient care.
Positioned as the foremost resource in hematology, HemaSphere augments its offerings with specialized sections like HemaTopics and HemaPolicy. These segments engender insightful dialogues covering a spectrum of hematology-related topics, including digestible summaries of pivotal articles, updates on new therapies, deliberations on European policy matters, and other noteworthy news items within the field. Steering the course of HemaSphere are Editor in Chief Jan Cools and Deputy Editor in Chief Claire Harrison, alongside the guidance of an esteemed Editorial Board comprising international luminaries in both research and clinical realms, each representing diverse areas of hematologic expertise.
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