359 .开发具有高亲和力和抗切割CD16和分泌IL-15 (CYNK-201)的人胎盘cd34来源的自然杀伤细胞用于癌症免疫治疗

Regular and Young Investigator Award Abstracts Pub Date : 2023-11-01 DOI:10.1136/jitc-2023-sitc2023.0359

Marina Gergues, Yuechao Zhao, Irene Raitman, Shengchen Lin, Valentina Rousseva, Siyara Kilcoyne, Adrian Kilcoyne, Robert Hariri, Shuyang He, Lin Kang

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引用次数: 0

摘要

自然杀伤细胞(NK)可以通过cd16fc受体与肿瘤特异性抗体结合，对肿瘤细胞显示抗体依赖的细胞毒性(ADCC)活性。IL-15对NK细胞的存活、增殖和功能起重要作用。cellulil正在开发人类胎盘CD34+衍生的、冷冻保存的、现成的、具有高IgG结合亲和力、抗蛋白酶裂解CD16和分泌IL-15的同种异体NK细胞(CYNK-201)，用于癌症治疗。在此，我们报告了CYNK-201对肿瘤细胞的临床前疗效结果。方法用表达CD16和IL-15的慢病毒载体将人胎盘CD34细胞转导成CYNK-201细胞，在细胞因子作用下培养扩增。采用流式细胞术对cyck -201细胞的转基因表达和表型进行了表征。采用人IL-15 ELISA试剂盒检测cyck -201分泌IL-15的浓度。分别联合曲妥珠单抗和利妥昔单抗评估CYNK-201对HER2+胃癌细胞系NCI-N87和CD20+伯基茨淋巴瘤细胞系Daudi的ADCC活性。采用NSG小鼠和NCI-N87异种移植NSG小鼠分别评估CYNK-201的体内持久性和有效性。结果CYNK-201来源于5个CD34+胎盘供体，CD56+CD3-表达91.8±1.1%，CD16表达78.9±9.77%，扩增3274±1605倍，IL-15平均分泌203±1.1 pg/mL。PMAi处理2h后，非转导(NT)-CYNK细胞的CD16切割率为61.6±11.3%，而CYNK-201细胞未观察到CD16脱落抗性。与NT-CYNK细胞相比，CYNK-201细胞活化标记CD11a、NKG2D、CD226和NKp30的表达增加。与NT-CYNK细胞相比，CYNK-201细胞对NCI-N87和Daudi的ADCC增强。在E:T比为1:1时，与NT-CYNK细胞相比，曲妥珠单抗作用下CYNK-201细胞对NCI-N87的ADCC增加，4小时时为65.6±15.1%比52.0±9.1%。在E:T比为2:1时，CYNK-201对Daudi联合利妥昔单抗的细胞毒性较NT-CYNK高，分别为49.0±18.8%和31.8±9.9%。注射14 d后，NSG小鼠体内检测到CYNK-201细胞，其丰度显著高于NT-CYNK细胞加重组IL-15。这种增强的CYNK-201持久性导致NCI-N87肿瘤模型与曲妥珠单抗联合显著降低肿瘤。结论CYNK-201体外ADCC、体内持久性和抗肿瘤活性增强。有必要进一步开发CYNK-201。

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359 Developing human placental CD34-derived natural killer cells with high affinity and cleavage resistant CD16 and secreted IL-15 (CYNK-201) for cancer immunotherapy

Background

Natural killer (NK) cells can display antibody dependent cellular cytotoxicity (ADCC) activity against tumor cells via the CD16 Fc receptor in combination with tumor specific antibodies. IL-15 is important for NK cell survival, proliferation and function. Celularity is developing human placental CD34⁺-derived, cryopreserved, off-the-shelf, allogenic NK cells (CYNK-201) with high IgG binding affinity, protease cleavage resistant CD16 and secreted IL-15 for cancer treatment. Here we report the preclinical efficacy results of CYNK-201 against tumor cells.

Methods

CYNK-201 cells were generated by transduction of human placental CD34 cells with lentivirus vector expressing CD16 and IL-15, followed by culture expansion in the presence of cytokines. Transgene expression and phenotype of CYNK-201 cells were characterized by flow cytometry. The concentration of secreted IL-15 by CYNK-201 was measured by a human IL-15 ELISA kit. ADCC activity of CYNK-201 against HER2⁺ gastric cancer cell line NCI-N87 and CD20⁺ Burkitts lymphoma cell line Daudi was assessed in combination with trastuzumab and rituximab, respectively. In vivo persistence and efficacy of CYNK-201 were assessed using NSG mice and NCI-N87 xenografted NSG mice, respectively.

Results

CYNK-201 was generated from multiple placental CD34⁺ donors (n=5) with 91.8±1.1% CD56⁺CD3^- , 78.9± 9.77% CD16 expression, 3274± 1605 fold expansion and the average of 203±1.1 pg/mL secreted IL-15. While 2h PMAi treatment resulted in 61.6±11.3% CD16 cleavage on non-transduced (NT)-CYNK cells, no cleavage was observed from CYNK-201 demonstrating CD16 shedding resistance. CYNK-201 showed increased expression of activation markers including CD11a, NKG2D, CD226 and NKp30 as compared to the NT-CYNK cells. CYNK-201 displayed enhanced in vitro ADCC against NCI-N87 and Daudi as compared to that of NT-CYNK cells. At an E:T ratio of 1:1, CYNK-201 elicited increased ADCC against NCI-N87 with trastuzumab compared to that of NT-CYNK cells, with 65.6±15.1% vs. 52.0±9.1% at 4 hours. At an E:T ratio of 2:1, CYNK-201 showed higher cytotoxicity against Daudi in combination with rituximab compared to that of NT-CYNK with 49.0±18.8% vs. 31.8±9.9%. Post 14 days of infusion, CYNK-201 cells were detectable in NSG mice, with significantly higher abundance than that of NT-CYNK cells plus recombinant IL-15. This enhanced persistence of CYNK-201 led to significant tumor reduction in NCI-N87 tumor model in combination with trastuzumab.

Conclusions

Our results demonstrated enhanced in vitro ADCC, in vivo persistence and anti-tumor activity of CYNK-201. Further development of CYNK-201 is warranted.

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Regular and Young Investigator Award Abstracts

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