Development of FAP-Targeted Chimeric Antigen Receptor NK-92 Cells for Non-Small Cell Lung Cancer.

IF 2 4区医学 Q3 MEDICINE, RESEARCH & EXPERIMENTAL Discovery medicine Pub Date : 2023-06-01 DOI:10.24976/Discov.Med.202335176.41

Yang Fang, Yan-Jing Wang, Hong-Li Zhao, Xin Huang, Yi-Nan Fang, Wen-Yi Chen, Ruo-Zhen Han, Ai Zhao, Ji-Min Gao

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Abstract

Objectives: Over the past two decades, great progress has been made in advancing the early detection and multimodal treatment of non-small cell lung cancer (NSCLC). However, overall cure rates and survival rates of NSCLC are still not satisfactory, and research into new therapies is needed. This study attempted to construct human Fibroblast Activation Protein-Chimeric Antigen Receptor Natural killer (NK)-92 cells (hFAP-CAR-NK-92 cells) and explore their potential therapeutic effects in NSCLC.

Methods: Immunohistochemistry analysis was carried out to examine fibroblast activation protein (FAP) and Gasdermin E (GSDME) expression in clinical specimens of lung adenocarcinoma and squamous cell carcinoma tissue. Then the engineered hFAP-CAR-NK-92 cells efficiency was determined in vitro with lactate dehydrogenase (LDH) cytotoxicity assay and the cell morphology of A549, H226, and cancer-related fibroblast (CAF) was observed by electron microscopy. After the co-culture of target cells and effect cells, flow cytometry was employed for examining the CD107a expression in the effect cells, and western blotting was conducted for the cleavage levels of Caspase 3 and GSDME proteins in the target cells. The safety and efficacy of hFAP-CAR-NK-92 cells adoptive transfer immunotherapy in a tumor-bearing mouse were evaluated.

Results: Clinical studies have shown FAP positivity in patients with NSCLC. Compared with A549 or H226 cells alone, FAP expression was notably raised in A549+CAF cells or H226+CAF cells in nude mice, respectively (p < 0.05). The killing efficiency of K562 cells was not significantly different between hFAP-CAR-NK-92 and NK-92 cells (p > 0.05). The hFAP-CAR-NK-92 cells presented a higher killing efficiency against the hFAP-target (A549-hFAP, H226-hFAP and CAF-hFAP) cells than the NK-92 cells (p < 0.05). The degranulation of CD107a and cleavage levels of GSDME and Caspase 3 protein in the hFAP-CAR-NK-92 group were higher than those in the NK-92 group (p < 0.05). The 300 nM Granzyme B also induced pyroptosis in hFAP- or GSDME-positive cells (p < 0.05). In vivo experiments revealed that hFAP-CAR-NK-92 cells inhibited tumor progression of hFAP-positive NSCLC (p < 0.05).

Conclusions: In this study, we successfully constructed hFAP-CAR-NK-92 cells and confirmed that hFAP-CAR-NK-92 cells could target hFAP-positive NSCLC to inhibit the progression of NSCLC by activating the Caspase-3/GSDME pyroptosis pathway.

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靶向fap嵌合抗原受体NK-92细胞治疗非小细胞肺癌的研究

目的:近二十年来，在推进非小细胞肺癌(NSCLC)的早期发现和多模式治疗方面取得了很大进展。然而，NSCLC的总体治愈率和生存率仍不令人满意，需要研究新的治疗方法。本研究试图构建人成纤维细胞活化蛋白-嵌合抗原受体自然杀伤(NK)-92细胞(hFAP-CAR-NK-92细胞)并探讨其在非小细胞肺癌中的潜在治疗作用。方法:采用免疫组化方法检测肺腺癌和鳞癌临床标本中成纤维细胞活化蛋白(FAP)和气凝胶蛋白E (GSDME)的表达。然后用乳酸脱氢酶(LDH)细胞毒法检测hFAP-CAR-NK-92细胞体外培养效率，并用电镜观察A549、H226和癌相关成纤维细胞(CAF)的细胞形态。靶细胞与效应细胞共培养后，流式细胞术检测效应细胞中CD107a的表达，western blotting检测靶细胞中Caspase 3和GSDME蛋白的裂解水平。评价hFAP-CAR-NK-92细胞过继性转移免疫治疗荷瘤小鼠的安全性和有效性。结果:临床研究显示FAP在NSCLC患者中呈阳性。裸鼠A549+CAF细胞和H226+CAF细胞中FAP的表达均明显高于A549和H226细胞(p < 0.05)。hFAP-CAR-NK-92与NK-92细胞对K562细胞的杀伤效率无显著差异(p > 0.05)。hFAP-CAR-NK-92细胞对hfap靶细胞(A549-hFAP、H226-hFAP和ca - hfap)的杀伤效率高于NK-92细胞(p < 0.05)。hFAP-CAR-NK-92组CD107a的脱粒率、GSDME和Caspase 3蛋白的裂解水平均高于NK-92组(p < 0.05)。300 nM Granzyme B也能诱导hFAP-或gsdme阳性细胞的焦亡(p < 0.05)。体内实验显示hFAP-CAR-NK-92细胞抑制hfap阳性NSCLC的肿瘤进展(p < 0.05)。结论:在本研究中，我们成功构建了hFAP-CAR-NK-92细胞，并证实hFAP-CAR-NK-92细胞可以通过激活Caspase-3/GSDME焦亡通路，靶向hfap阳性NSCLC，抑制NSCLC的进展。

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来源期刊

Discovery medicine MEDICINE, RESEARCH & EXPERIMENTAL-

CiteScore

5.40

自引率

0.00%

发文量

审稿时长

6-12 weeks

期刊介绍： Discovery Medicine publishes novel, provocative ideas and research findings that challenge conventional notions about disease mechanisms, diagnosis, treatment, or any of the life sciences subjects. It publishes cutting-edge, reliable, and authoritative information in all branches of life sciences but primarily in the following areas: Novel therapies and diagnostics (approved or experimental); innovative ideas, research technologies, and translational research that will give rise to the next generation of new drugs and therapies; breakthrough understanding of mechanism of disease, biology, and physiology; and commercialization of biomedical discoveries pertaining to the development of new drugs, therapies, medical devices, and research technology.