An Influenza Virus M2 Protein Specific Chimeric Antigen Receptor Modulates Influenza A/WSN/33 H1N1 Infection In Vivo.

The Open Virology Journal Pub Date : 2013-01-01 Epub Date: 2013-02-25 DOI:10.2174/1874357901307010028
Simon J Talbot, Natalie F Blair, Niolette McGill, Yvonne Ligertwood, Bernadette M Dutia, Ingo Johannessen
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引用次数: 9

Abstract

A potential target for the development of universal vaccine strategies against Influenza A is the M2 protein - a membrane protein with a highly conserved extracellular domain. In this study we developed engineered T-cell receptors, by fusing M2-specific antibody sequences with T-cell receptor transmembrane and signaling domains to target influenza infected cells. When expressed on T-cells, these novel T-cell receptors (chimeric antigen receptors - CARs) are able to recognize specific antigens on the surface of target cells via an MHC-independent mechanism. Using an existing monoclonal antibody (14C2) specific for the M2 ectodomain (M2e), we generated an M2-specific CAR. We tested the specificity of this M2 CAR in vitro by measuring the activation of T-cells in response to M2-specific peptides or M2-expressing cell lines. Both Jurkat T-cells and peripheral blood mononuclear cells expressing the M2-specific CAR responded to specific antigen stimulation by upregulating NFAT and producing γ-interferon. To test whether the M2-specific CAR are effective at recognizing influenza infected cells in vivo we used an established BALB/c murine infection model. At day 4 post-infection, when M2 CAR expressing splenocytes could be detected in the lung, the Influenza A/WSN/33 virus titre was around 50% of that in control mice. Although the lung virus titre later increased in the treated group, virus was cleared in both groups of mice by day 8. The results provide support for the development of M2e as a target for cell mediated immunotherapy.

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流感病毒M2蛋白特异性嵌合抗原受体在体内调节甲型流感/WSN/ 33h1n1感染
开发甲型流感通用疫苗策略的一个潜在靶标是M2蛋白——一种具有高度保守胞外结构域的膜蛋白。在这项研究中,我们开发了工程化的t细胞受体,通过融合m2特异性抗体序列与t细胞受体跨膜和信号域来靶向流感感染细胞。当在t细胞上表达时,这些新的t细胞受体(嵌合抗原受体- CARs)能够通过mhc独立的机制识别靶细胞表面的特定抗原。利用现有的针对M2外结构域(M2e)的单克隆抗体(14C2),我们生成了一种M2特异性CAR。我们在体外通过测量t细胞对M2特异性肽或M2表达细胞系的激活来测试这种M2 CAR的特异性。Jurkat t细胞和表达m2特异性CAR的外周血单个核细胞都通过上调NFAT和产生γ-干扰素来响应特异性抗原刺激。为了测试m2特异性CAR在体内是否能有效识别流感感染细胞,我们使用了已建立的BALB/c小鼠感染模型。在感染后第4天,当肺中可以检测到表达M2 CAR的脾细胞时,流感A/WSN/33病毒滴度约为对照小鼠的50%。虽然治疗组的肺病毒滴度后来增加,但两组小鼠的病毒在第8天被清除。这些结果为M2e作为细胞介导免疫治疗靶点的发展提供了支持。
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