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抗叶酸受体-α IgE而非IgG通过TNFα/MCP-1信号通路招募巨噬细胞攻击肿瘤。

Anti-Folate Receptor-α IgE but not IgG Recruits Macrophages to Attack Tumors via TNFα/MCP-1 Signaling.

作者信息

Josephs Debra H, Bax Heather J, Dodev Tihomir, Georgouli Mirella, Nakamura Mano, Pellizzari Giulia, Saul Louise, Karagiannis Panagiotis, Cheung Anthony, Herraiz Cecilia, Ilieva Kristina M, Correa Isabel, Fittall Matthew, Crescioli Silvia, Gazinska Patrycja, Woodman Natalie, Mele Silvia, Chiaruttini Giulia, Gilbert Amy E, Koers Alexander, Bracher Marguerite, Selkirk Christopher, Lentfer Heike, Barton Claire, Lever Elliott, Muirhead Gareth, Tsoka Sophia, Canevari Silvana, Figini Mariangela, Montes Ana, Downes Noel, Dombrowicz David, Corrigan Christopher J, Beavil Andrew J, Nestle Frank O, Jones Paul S, Gould Hannah J, Sanz-Moreno Victoria, Blower Philip J, Spicer James F, Karagiannis Sophia N

机构信息

St. John's Institute of Dermatology, Division of Genetics and Molecular Medicine, Faculty of Life Sciences and Medicine, King's College London, London, United Kingdom.

NIHR Biomedical Research Centre at Guy's and St. Thomas' Hospitals and King's College London, London, United Kingdom.

出版信息

Cancer Res. 2017 Mar 1;77(5):1127-1141. doi: 10.1158/0008-5472.CAN-16-1829. Epub 2017 Jan 17.

DOI:10.1158/0008-5472.CAN-16-1829
PMID:28096174
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6173310/
Abstract

IgE antibodies are key mediators of antiparasitic immune responses, but their potential for cancer treatment via antibody-dependent cell-mediated cytotoxicity (ADCC) has been little studied. Recently, tumor antigen-specific IgEs were reported to restrict cancer cell growth by engaging high-affinity Fc receptors on monocytes and macrophages; however, the underlying therapeutic mechanisms were undefined and proof of concept was limited. Here, an immunocompetent rat model was designed to recapitulate the human IgE-Fcε receptor system for cancer studies. We also generated rat IgE and IgG mAbs specific for the folate receptor (FRα), which is expressed widely on human ovarian tumors, along with a syngeneic rat tumor model expressing human FRα. Compared with IgG, anti-FRα IgE reduced lung metastases. This effect was associated with increased intratumoral infiltration by TNFα and CD80 macrophages plus elevated TNFα and the macrophage chemoattractant MCP-1 in lung bronchoalveolar lavage fluid. Increased levels of TNFα and MCP-1 correlated with IgE-mediated tumor cytotoxicity by human monocytes and with longer patient survival in clinical specimens of ovarian cancer. Monocytes responded to IgE but not IgG exposure by upregulating TNFα, which in turn induced MCP-1 production by monocytes and tumor cells to promote a monocyte chemotactic response. Conversely, blocking TNFα receptor signaling abrogated induction of MCP-1, implicating it in the antitumor effects of IgE. Overall, these findings show how antitumor IgE reprograms monocytes and macrophages in the tumor microenvironment, encouraging the clinical use of IgE antibody technology to attack cancer beyond the present exclusive reliance on IgG. .

摘要

IgE抗体是抗寄生虫免疫反应的关键介质,但其通过抗体依赖性细胞介导的细胞毒性(ADCC)进行癌症治疗的潜力鲜有研究。最近,有报道称肿瘤抗原特异性IgE通过与单核细胞和巨噬细胞上的高亲和力Fc受体结合来限制癌细胞生长;然而,潜在的治疗机制尚不明确,概念验证也很有限。在此,设计了一种具有免疫活性的大鼠模型,以重现用于癌症研究的人类IgE-Fcε受体系统。我们还制备了对叶酸受体(FRα)具有特异性的大鼠IgE和IgG单克隆抗体,FRα在人类卵巢肿瘤上广泛表达,同时构建了表达人类FRα的同基因大鼠肿瘤模型。与IgG相比,抗FRα IgE减少了肺转移。这种效应与肿瘤内TNFα和CD80巨噬细胞浸润增加以及肺支气管肺泡灌洗液中TNFα和巨噬细胞趋化因子MCP-1升高有关。TNFα和MCP-1水平的升高与人类单核细胞介导的IgE肿瘤细胞毒性以及卵巢癌临床标本中患者更长的生存期相关。单核细胞对IgE而非IgG的暴露做出反应,通过上调TNFα,进而诱导单核细胞和肿瘤细胞产生MCP-1以促进单核细胞趋化反应。相反,阻断TNFα受体信号传导消除了MCP-1的诱导,表明其参与了IgE的抗肿瘤作用。总体而言,这些发现揭示了抗肿瘤IgE如何在肿瘤微环境中对单核细胞和巨噬细胞进行重编程,鼓励临床使用IgE抗体技术来攻克癌症,而不仅仅局限于目前对IgG的依赖。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/082d/6173310/9a2482990731/emss-71315-f007.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/082d/6173310/6ed7b816314e/emss-71315-f001.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/082d/6173310/22b6ff2d0825/emss-71315-f002.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/082d/6173310/8e9728e5d250/emss-71315-f003.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/082d/6173310/87c5a23cf064/emss-71315-f004.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/082d/6173310/b78d6a6d243d/emss-71315-f005.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/082d/6173310/a2d7125986c1/emss-71315-f006.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/082d/6173310/9a2482990731/emss-71315-f007.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/082d/6173310/6ed7b816314e/emss-71315-f001.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/082d/6173310/22b6ff2d0825/emss-71315-f002.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/082d/6173310/8e9728e5d250/emss-71315-f003.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/082d/6173310/87c5a23cf064/emss-71315-f004.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/082d/6173310/b78d6a6d243d/emss-71315-f005.jpg
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https://cdn.ncbi.nlm.nih.gov/pmc/blobs/082d/6173310/9a2482990731/emss-71315-f007.jpg

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