Biomimetic modification of macrophage membrane-coated prussian blue nanoparticles loaded with SN-38 to treat colorectal cancer by photothermal-chemotherapy

IF 5.7 3区 医学 Q1 MEDICINE, RESEARCH & EXPERIMENTAL Drug Delivery and Translational Research Pub Date : 2024-09-09 DOI:10.1007/s13346-024-01689-5
Xuyang Hou, Zuxing Wei, Xiaoyan Qi, Dekun Liu, Yin Sun, Yuhong Jiang, Chao Liu, Weihan Zhou, Leping Yang, Kuijie Liu
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Abstract

SN-38 is the active metabolite of irinotecan and acts as an effective topoisomerase I inhibitor with therapeutic effects on many malignant tumors, including some drug-resistant cancers. However, the poor solubility, low bioavailability, and severe dose-dependent toxicity limits the clinical application of SN-38. Currently, emerging macrophage membrane-coated nanoparticles provide an efficient biomimetic approach to develop novel SN-38 formulations for the reduction of its side effects. Photothermal therapy (PTT) is a promising methods in tumor treatment to thermally ablate tumors using various materials such Prussian blue nanoparticles (NPs) and can combined with chemotherapy to synergistically work. There is no report that combined SN38 and photothermal therapy for the treatment of colorectal cancer (CRC). SN38-PB@CM NPs were constructed by loading SN-38 into macrophage cell membrane-coated hollow mesoporous Prussian blue (PB) NPs. The morphology, size and zeta potential were evaluated by transmission microscopy and dynamic light scatter (DLS). Coomassie bright blue staining was performed to assess total protein profile. The photothermal properties of it were also investigated via near-infrared imaging. CCK8 and calcein-AM/PI staining were used to evaluate cell viability. Flow cytometry was performed to assess cell apoptosis. The fluorescent microscopy was used to observe cellular uptake of SN38-PB@CM NPs to assess its internalization in vitro. The biodistribution, tumor-targeting efficacy, antitumor efficacy and safety of SN38-PB@CM NPs in vivo were assessed in CT26 tumor-bearing mice via In Vivo Imaging System. SN38-PB@CM NPs were successfully constructed and exhibited a uniform size distribution (140.5 ± 4.3 nm) and an excellent drug-loading capacity (5.61 ± 0.64%). SN38-PB@CM NPs showed stable release properties within 72 h. It can also enhance the selective intracellular delivery of SN38 in vitro and showed good near-infrared (NIR) photothermal properties. And the NPs showed excellent tumor targeting, effective photothermal therapy, improved biosafety and antitumor efficacy on CT26-bearing mice. Multifunctional SN38-PB@CM NPs could achieve improved biosafety, great tumor-targeting, high-efficiency PTT and excellent antitumor efficacy, which provided a promising and attractive combination therapy for the treatment of CRC.

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对载入 SN-38 的巨噬细胞膜包被普鲁士蓝纳米粒子进行仿生改造,利用光热化学疗法治疗结直肠癌
SN-38 是伊立替康的活性代谢物,是一种有效的拓扑异构酶 I 抑制剂,对许多恶性肿瘤(包括一些耐药性癌症)具有治疗效果。然而,由于溶解性差、生物利用度低以及严重的剂量依赖性毒性,SN-38 的临床应用受到了限制。目前,新出现的巨噬细胞膜包被纳米粒子为开发新型 SN-38 制剂提供了一种有效的生物仿生方法,可减少 SN-38 的副作用。光热疗法(PTT)是一种利用普鲁士蓝纳米粒子(NPs)等多种材料对肿瘤进行热消融的肿瘤治疗方法,并能与化疗联合发挥协同作用。目前还没有将 SN38 和光热疗法结合起来治疗结直肠癌(CRC)的报道。我们将 SN38 装入巨噬细胞膜包被的中空介孔普鲁士蓝(PB)NPs 中,构建了 SN38-PB@CM NPs。透射显微镜和动态光散射(DLS)对其形态、尺寸和zeta电位进行了评估。采用库马西亮蓝染色法评估了总蛋白质概况。此外,还通过近红外成像技术对其光热特性进行了研究。CCK8 和钙黄绿素-AM/PI 染色用于评估细胞活力。流式细胞术用于评估细胞凋亡。荧光显微镜用于观察细胞对 SN38-PB@CM NPs 的摄取,以评估其体外内化情况。通过体内成像系统,在 CT26 肿瘤小鼠体内评估了 SN38-PB@CM NPs 的生物分布、肿瘤靶向功效、抗肿瘤效果和安全性。结果表明,SN38-PB@CM NPs 的尺寸分布均匀(140.5 ± 4.3 nm),载药量为 5.61 ± 0.64%。SN38-PB@CM NPs 在 72 h 内具有稳定的释放特性,在体外可增强 SN38 在细胞内的选择性递送,并具有良好的近红外(NIR)光热特性。该 NPs 对 CT26 小鼠表现出良好的肿瘤靶向性、有效的光热疗法、更高的生物安全性和抗肿瘤疗效。多功能SN38-PB@CM NPs具有更高的生物安全性、良好的肿瘤靶向性、高效的PTT和卓越的抗肿瘤疗效,为治疗CRC提供了一种有前景、有吸引力的联合疗法。
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来源期刊
Drug Delivery and Translational Research
Drug Delivery and Translational Research MEDICINE, RESEARCH & EXPERIMENTALPHARMACOL-PHARMACOLOGY & PHARMACY
CiteScore
11.70
自引率
1.90%
发文量
160
期刊介绍: The journal provides a unique forum for scientific publication of high-quality research that is exclusively focused on translational aspects of drug delivery. Rationally developed, effective delivery systems can potentially affect clinical outcome in different disease conditions. Research focused on the following areas of translational drug delivery research will be considered for publication in the journal. Designing and developing novel drug delivery systems, with a focus on their application to disease conditions; Preclinical and clinical data related to drug delivery systems; Drug distribution, pharmacokinetics, clearance, with drug delivery systems as compared to traditional dosing to demonstrate beneficial outcomes Short-term and long-term biocompatibility of drug delivery systems, host response; Biomaterials with growth factors for stem-cell differentiation in regenerative medicine and tissue engineering; Image-guided drug therapy, Nanomedicine; Devices for drug delivery and drug/device combination products. In addition to original full-length papers, communications, and reviews, the journal includes editorials, reports of future meetings, research highlights, and announcements pertaining to the activities of the Controlled Release Society.
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