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本文引用的文献

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Recent perspective on CAR and Fcγ-CR T cell immunotherapy for cancers: Preclinical evidence versus clinical outcomes.近期癌症嵌合抗原受体和 Fcγ 受体 T 细胞免疫疗法的研究进展:临床前证据与临床结果。
Biochem Pharmacol. 2019 Aug;166:335-346. doi: 10.1016/j.bcp.2019.06.002. Epub 2019 Jun 6.
2
FCγ Chimeric Receptor-Engineered T Cells: Methodology, Advantages, Limitations, and Clinical Relevance.Fcγ嵌合受体工程化T细胞:方法、优势、局限性及临床相关性
Front Immunol. 2017 Apr 27;8:457. doi: 10.3389/fimmu.2017.00457. eCollection 2017.
3
Combination of NK Cells and Cetuximab to Enhance Anti-Tumor Responses in RAS Mutant Metastatic Colorectal Cancer.自然杀伤细胞与西妥昔单抗联合应用增强RAS突变型转移性结直肠癌的抗肿瘤反应
PLoS One. 2016 Jun 17;11(6):e0157830. doi: 10.1371/journal.pone.0157830. eCollection 2016.
4
Anti-EGFR Targeted Monoclonal Antibody Isotype Influences Antitumor Cellular Immunity in Head and Neck Cancer Patients.抗表皮生长因子受体(EGFR)靶向单克隆抗体的同种型影响头颈癌患者的抗肿瘤细胞免疫。
Clin Cancer Res. 2016 Nov 1;22(21):5229-5237. doi: 10.1158/1078-0432.CCR-15-2971. Epub 2016 May 23.
5
T lymphocytes engineered to express a CD16-chimeric antigen receptor redirect T-cell immune responses against immunoglobulin G-opsonized target cells.经基因工程改造以表达CD16嵌合抗原受体的T淋巴细胞可重定向T细胞免疫反应,使其针对免疫球蛋白G调理的靶细胞。
Cytotherapy. 2016 Feb;18(2):278-90. doi: 10.1016/j.jcyt.2015.10.014. Epub 2015 Dec 17.
6
Fc receptor-dependent mechanisms of monoclonal antibody therapy of cancer.癌症单克隆抗体治疗的Fc受体依赖性机制
Curr Top Microbiol Immunol. 2014;382:373-92. doi: 10.1007/978-3-319-07911-0_17.
7
Gene-modified human α/β-T cells expressing a chimeric CD16-CD3ζ receptor as adoptively transferable effector cells for anticancer monoclonal antibody therapy.基因修饰的表达嵌合 CD16-CD3ζ 受体的人 α/β-T 细胞作为可过继转移的效应细胞用于抗癌单克隆抗体治疗。
Cancer Immunol Res. 2014 Mar;2(3):249-62. doi: 10.1158/2326-6066.CIR-13-0099-T. Epub 2014 Jan 3.
8
T lymphocytes expressing a CD16 signaling receptor exert antibody-dependent cancer cell killing.表达 CD16 信号受体的 T 淋巴细胞发挥抗体依赖性癌细胞杀伤作用。
Cancer Res. 2014 Jan 1;74(1):93-103. doi: 10.1158/0008-5472.CAN-13-1365. Epub 2013 Nov 6.
9
Oncogenic KRAS impairs EGFR antibodies' efficiency by C/EBPβ-dependent suppression of EGFR expression.致癌性 KRAS 通过 C/EBPβ 依赖性抑制 EGFR 表达来降低 EGFR 抗体的效率。
Neoplasia. 2012 Mar;14(3):190-205. doi: 10.1593/neo.111636.
10
Cytotoxic drugs up-regulate epidermal growth factor receptor (EGFR) expression in colon cancer cells and enhance their susceptibility to EGFR-targeted antibody-dependent cell-mediated-cytotoxicity (ADCC).细胞毒性药物上调结肠癌细胞中表皮生长因子受体(EGFR)的表达,并增强其对 EGFR 靶向抗体依赖性细胞介导的细胞毒性(ADCC)的敏感性。
Eur J Cancer. 2010 Jun;46(9):1703-11. doi: 10.1016/j.ejca.2010.03.005.

嵌合抗原受体 T 细胞联合西妥昔单抗或帕尼单抗体外消除表皮生长因子受体过表达癌细胞。

In vitro elimination of epidermal growth factor receptor-overexpressing cancer cells by CD32A-chimeric receptor T cells in combination with cetuximab or panitumumab.

机构信息

Department of Biomedical Sciences, Institute of Translational Pharmacology, CNR, Rome, Italy.

Department of Systems Medicine, University of Rome "Tor Vergata", Rome, Italy.

出版信息

Int J Cancer. 2020 Jan 1;146(1):236-247. doi: 10.1002/ijc.32663. Epub 2019 Oct 12.

DOI:10.1002/ijc.32663
PMID:31479522
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8711771/
Abstract

Cetuximab and panitumumab bind the human epidermal growth factor receptor (EGFR). Although the chimeric cetuximab (IgG1) triggers antibody-dependent-cellular-cytotoxicity (ADCC) of EGFR positive target cells, panitumumab (a human IgG2) does not. The inability of panitumumab to trigger ADCC reflects the poor binding affinity of human IgG2 Fc for the FcγRIII (CD16) on natural killer (NK) cells. However, both human IgG1 and IgG2 bind the FcγRII (CD32A) to a similar extent. Our study compares the ability of T cells, engineered with a novel low-affinity CD32A -chimeric receptor (CR), and those engineered with the low-affinity CD16 -CR T cells, in eliminating EGFR positive epithelial cancer cells (ECCs) in combination with cetuximab or panitumumab. After T-cell transduction, the percentage of CD32A -CR T cells was 74 ± 10%, whereas the percentage of CD16 -CR T cells was 46 ± 15%. Only CD32A -CR T cells bound panitumumab. CD32A -CR T cells combined with the mAb 8.26 (anti-CD32) and CD16 -CR T cells combined with the mAb 3g8 (anti-CD16) eliminated colorectal carcinoma (CRC), HCT116 cells, in a reverse ADCC assay in vitro. Crosslinking of CD32A -CR on T cells by cetuximab or panitumumab and CD16 -CR T cells by cetuximab induced elimination of triple negative breast cancer (TNBC) MDA-MB-468 cells, and the secretion of interferon gamma and tumor necrosis factor alpha. Neither cetuximab nor panitumumab induced Fcγ-CR T antitumor activity against Kirsten rat sarcoma (KRAS)-mutated HCT116, nonsmall-cell-lung-cancer, A549 and TNBC, MDA-MB-231 cells. The ADCC of Fcγ-CR T cells was associated with the overexpression of EGFR on ECCs. In conclusion, CD32A -CR T cells are efficiently redirected by cetuximab or panitumumab against breast cancer cells overexpressing EGFR.

摘要

西妥昔单抗和帕尼单抗结合人类表皮生长因子受体 (EGFR)。虽然嵌合西妥昔单抗 (IgG1) 触发 EGFR 阳性靶细胞的抗体依赖性细胞细胞毒性 (ADCC),但帕尼单抗 (一种人 IgG2) 不能。帕尼单抗不能触发 ADCC 反映了人 IgG2 Fc 与自然杀伤 (NK) 细胞上的 FcγRIII (CD16) 的结合亲和力差。然而,人 IgG1 和 IgG2 均以相似的程度结合 FcγRII (CD32A)。我们的研究比较了用新型低亲和力 CD32A-嵌合受体 (CR) 工程化的 T 细胞和用低亲和力 CD16-CR T 细胞工程化的 T 细胞在结合西妥昔单抗或帕尼单抗时消除 EGFR 阳性上皮癌细胞 (ECCs) 的能力。T 细胞转导后,CD32A-CR T 细胞的百分比为 74±10%,而 CD16-CR T 细胞的百分比为 46±15%。只有 CD32A-CR T 细胞结合帕尼单抗。CD32A-CR T 细胞与 mab8.26(抗 CD32)结合,CD16-CR T 细胞与 mab3g8(抗 CD16)结合,在体外反向 ADCC 测定中消除结直肠癌 (CRC)、HCT116 细胞。西妥昔单抗或帕尼单抗交联 CD32A-CR T 细胞和西妥昔单抗交联 CD16-CR T 细胞诱导三阴性乳腺癌 (TNBC) MDA-MB-468 细胞的消除,并分泌干扰素 γ 和肿瘤坏死因子 α。西妥昔单抗或帕尼单抗均未诱导针对 KRAS 突变的 HCT116、非小细胞肺癌、A549 和 TNBC、MDA-MB-231 细胞的 Fcγ-CR T 抗肿瘤活性。Fcγ-CR T 细胞的 ADCC 与 ECC 上 EGFR 的过表达有关。总之,CD32A-CR T 细胞可被西妥昔单抗或帕尼单抗有效重定向针对过表达 EGFR 的乳腺癌细胞。