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在结肠癌模型中,MC32肿瘤细胞通过癌胚抗原(CEA)的缺失获得了抗原特异性细胞毒性T淋巴细胞(CTL)抗性。

MC32 tumor cells acquire Ag-specific CTL resistance through the loss of CEA in a colon cancer model.

作者信息

Lee Sang-Yeul, Sin Jeong-Im

机构信息

a Department of Plastic and Reconstructive Surgery ; School of Medicine; Kangwon National University ; Chuncheon , Gangwon-do , Korea.

出版信息

Hum Vaccin Immunother. 2015;11(8):2012-20. doi: 10.1080/21645515.2015.1016669.

DOI:10.1080/21645515.2015.1016669
PMID:25902414
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4635946/
Abstract

We previously reported that MC32 cells resist carcinoembryonic antigen (CEA) DNA vaccination by losing their antigen presentation to Ag-specific CTLs in the context of MHC class I antigens in a colon cancer therapeutic model. In this study, we selected 2 tumor cells, MC32-S2-2 and MC32-S4-2, which have the ability to form tumors in CEA DNA vaccine-immunized mice. Wild type MC32 cells grew significantly less in CEA-immunized mice (with Ag-specific CTL lytic activity) than in control mice (with no Ag-specific CTL lytic activity). However, MC32-S2-2 and MC32-S4-2 cells grew at a similar rate in both control and CEA-immunized mice, confirming their resistant status against CEA DNA vaccination. MC32-S2-2 and MC32-S4-2 cells were not susceptible to lysis by CEA-specific CD8+ T cells. Moreover, when MC32-S2-2 and MC32-S4-2 cells were used as stimulating agents of CEA-specific immune cells for IFN-γ production, these cells failed to stimulate the induction of Ag-specific IFN-γ, suggesting a loss of tumor cell recognition by Ag-specific immune cells. However, MC32-S2-2 and MC32-S4-2 cells expressed MHC class I antigens in a manner similar to that of wild type MC32 cells. Finally, Western blot assay confirmed that in MC32-S2-2 and MC32-S4-2 cells, CEA expression remained absent but mouse CEA was expressed. Taken together, these data show that MC32 cells may also be able to achieve resistance to CEA-specific CTLs by antigen loss in this model.

摘要

我们之前报道过,在结肠癌治疗模型中,MC32细胞通过在MHC I类抗原背景下失去向抗原特异性CTL呈递抗原的能力,从而抵抗癌胚抗原(CEA)DNA疫苗接种。在本研究中,我们选择了2种肿瘤细胞,MC32-S2-2和MC32-S4-2,它们能够在CEA DNA疫苗免疫的小鼠中形成肿瘤。野生型MC32细胞在CEA免疫的小鼠(具有抗原特异性CTL裂解活性)中生长明显少于对照小鼠(无抗原特异性CTL裂解活性)。然而,MC32-S2-2和MC32-S4-2细胞在对照小鼠和CEA免疫的小鼠中生长速率相似,证实了它们对CEA DNA疫苗接种的抗性状态。MC32-S2-2和MC32-S4-2细胞不易被CEA特异性CD8 + T细胞裂解。此外,当将MC32-S2-2和MC32-S4-2细胞用作CEA特异性免疫细胞产生IFN-γ的刺激剂时,这些细胞未能刺激诱导抗原特异性IFN-γ,表明抗原特异性免疫细胞丧失了对肿瘤细胞的识别。然而,MC32-S2-2和MC32-S4-2细胞以与野生型MC32细胞相似的方式表达MHC I类抗原。最后,蛋白质印迹分析证实,在MC32-S2-2和MC32-S4-2细胞中,CEA表达仍然缺失,但小鼠CEA表达存在。综上所述,这些数据表明,在该模型中,MC32细胞也可能通过抗原缺失实现对CEA特异性CTL的抗性。

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