用于优化肿瘤特异性细胞因子递送的癌细胞包被纳米颗粒

Cancer Cell Coating Nanoparticles for Optimal Tumor-Specific Cytokine Delivery.

作者信息

Barberio Antonio E, Smith Sean G, Correa Santiago, Nguyen Cathy, Nhan Bang, Melo Mariane, Tokatlian Talar, Suh Heikyung, Irvine Darrell J, Hammond Paula T

机构信息

Department of Chemical Engineering, Massachusetts Institute of Technology, 183 Memorial Drive, Cambridge, Massachusetts 02142, United States.

Koch Institute for Integrative Cancer Research, Massachusetts Institute of Technology, 500 Main Street, Cambridge, Massachusetts 02142, United States.

出版信息

ACS Nano. 2020 Sep 22;14(9):11238-11253. doi: 10.1021/acsnano.0c03109. Epub 2020 Sep 5.

DOI:10.1021/acsnano.0c03109

PMID:32692155

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7530125/

Abstract

Although cytokine therapy is an attractive strategy to build a more robust immune response in tumors, cytokines have faced clinical failures due to toxicity. In particular, interleukin-12 has shown great clinical promise but was limited in translation because of systemic toxicity. In this study, we demonstrate an enhanced ability to reduce toxicity without affecting the efficacy of IL-12 therapy. We engineer the material properties of a NP to meet the enhanced demands for optimal cytokine delivery by using the layer-by-layer (LbL) approach. Importantly, using LbL, we demonstrate cell-level trafficking of NPs to preferentially localize to the cell's outer surface and act as a drug depot, which is required for optimal payload activity on neighboring cytokine membrane receptors. LbL-NPs showed efficacy against a tumor challenge in both colorectal and ovarian tumors at doses that were not tolerated when administered carrier-free.

摘要

尽管细胞因子疗法是在肿瘤中建立更强有力免疫反应的一种有吸引力的策略，但由于毒性，细胞因子面临临床失败。特别是，白细胞介素-12已显示出巨大的临床前景，但由于全身毒性，在转化应用中受到限制。在本研究中，我们证明了在不影响白细胞介素-12治疗效果的情况下降低毒性的能力增强。我们通过层层组装（LbL）方法设计纳米颗粒（NP）的材料特性，以满足对最佳细胞因子递送的更高要求。重要的是，使用层层组装方法，我们证明了纳米颗粒在细胞水平上的运输，优先定位于细胞外表面并充当药物库，这是对邻近细胞因子膜受体进行最佳有效载荷活性所必需的。与无载体给药时无法耐受的剂量相比，层层组装纳米颗粒在结直肠癌和卵巢癌肿瘤挑战中均显示出疗效。

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