纳米颗粒治疗肿瘤相关巨噬细胞的治疗效果。

Therapeutic Impact of Nanoparticle Therapy Targeting Tumor-Associated Macrophages.

机构信息

Division of Gynecologic Oncology, Department of Obstetrics and Gynecology, University of Michigan, Ann Arbor, Michigan.

Division of Hematology Oncology, Department of Medicine, University of Michigan, Ann Arbor, Michigan.

出版信息

Mol Cancer Ther. 2018 Jan;17(1):96-106. doi: 10.1158/1535-7163.MCT-17-0688. Epub 2017 Nov 13.

DOI:10.1158/1535-7163.MCT-17-0688

PMID:29133618

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5752569/

Abstract

Antiangiogenic therapies, despite initial encouragement, have demonstrated a limited benefit in ovarian cancer. Laboratory studies suggest antiangiogenic therapy-induced hypoxia can induce tumor "stemness" as resistance to antiangiogenic therapy develops and limits the therapeutic benefit. Resistance to antiangiogenic therapy and an induction of tumor stemness may be mediated by proangiogenic tumor-associated macrophages (TAM). As such, TAMs have been proposed as a therapeutic target. We demonstrate here that ovarian TAMs express high levels of the folate receptor-2 (FOLR2) and can be selectively targeted using G5-dendrimer nanoparticles using methotrexate as both a ligand and a toxin. G5-methotrexate (G5-MTX) nanoparticles deplete TAMs in both solid tumor and ascites models of ovarian cancer. As a therapeutic agent, these nanoparticles are more effective than cisplatin. Importantly, these nanoparticles could (i) overcome resistance to antiangiogenic therapy, (ii) prevent antiangiogenic therapy-induced increases in cancer stem-like cells in both murine and human tumor cell models, (iii) prevent antiangiogenic therapy-induced increases in VEGF-C, and (iv) prevent antiangiogenic therapy-induced BRCA1 gene expression. Combined, this work strongly supports the development of TAM-targeted nanoparticle therapy. .

摘要

抗血管生成治疗，尽管最初令人鼓舞，但在卵巢癌中的获益有限。实验室研究表明，抗血管生成治疗诱导的缺氧可诱导肿瘤“干性”，因为它会随着抗血管生成治疗的发展而产生耐药性，并限制治疗获益。抗血管生成治疗的耐药性和肿瘤干性的诱导可能是由促血管生成的肿瘤相关巨噬细胞（TAM）介导的。因此，TAM 已被提议作为治疗靶点。我们在这里证明，卵巢 TAM 表达高水平的叶酸受体-2（FOLR2），并可以使用 G5-树枝状聚合物纳米颗粒，以甲氨蝶呤作为配体和毒素，进行特异性靶向。G5-甲氨蝶呤（G5-MTX）纳米颗粒可耗尽卵巢癌实体瘤和腹水模型中的 TAM。作为一种治疗剂，这些纳米颗粒比顺铂更有效。重要的是，这些纳米颗粒可以：（i）克服抗血管生成治疗的耐药性；（ii）防止抗血管生成治疗诱导的在鼠和人肿瘤细胞模型中增加癌症干细胞样细胞；（iii）防止抗血管生成治疗诱导的 VEGF-C 增加；（iv）防止抗血管生成治疗诱导的 BRCA1 基因表达。综上所述，这项工作强烈支持开发针对 TAM 的纳米颗粒治疗。

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