Auranofin loaded silk fibroin nanoparticles for colorectal cancer treatment.

IF 5.7 3区 医学 Q1 MEDICINE, RESEARCH & EXPERIMENTAL
Marta Pérez-Lloret, Eileen Reidy, Antonio Abel Lozano-Pérez, Juan A Marchal, Piet N L Lens, Aideen E Ryan, Andrea Erxleben
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引用次数: 0

Abstract

Colorectal cancer (CRC) is the second most common cause of cancer related deaths worldwide and the prevalence in young people especially is increasing annually. In the search for innovative approaches to treat the disease, drug delivery systems (DDS) are promising owing to their unique properties, which allow improved therapeutic results with lower drug concentrations, overcoming drug resistance and at the same time potentially reducing side effects. Silk fibroin is a biopolymer that can be processed to obtain biocompatible and biodegradable nanoparticles that can be efficiently loaded by surface adsorption with small-molecule therapeutics and allow their transport and sustained release by modulating their pharmacokinetics. Auranofin (AF) has recently been repurposed for its strong anticancer activity and is currently in clinical trials. Its mechanism of action is through the inhibition of thioredoxin reductase enzymes, which play an essential role in several intracellular processes and are overexpressed in some tumours. Taking into account that AF has a low solubility in water, we propose silk fibroin nanoparticles (SFN) as AF carrier in order to improve its bioavailability, increasing cellular absorption and preventing its degradation or avoiding some resistance mechanisms. Here we report the preparation and characterization of a new formulation of AF-loaded silk fibroin nanoparticles (SFN-AF), its functionalization with FITC for the analysis of cellular uptake, as well as its cytotoxic activity against cell lines of human colorectal cancer (HT29 and HCT116) in both 2D and 3D cell cultures. 3D spheroid models provide a 3D environment which mimics the 3D aspects of CRC observed in vivo and represents an effective 3D environment to screen therapeutics for the treatment of CRC. The loaded nanoparticles showed a spherical morphology with a hydrodynamic diameter of ~ 160 nm and good stability in aqueous solution due to their negative surface charges. FESEM-EDX analysis revealed a homogeneous distribution of Au clusters with high electron density on the surface of the nanoparticles. SFN-AF incubated in phosphate buffer at 37 °C released 77% of the loaded AF over 10 days, showing an initial burst and then sustained release. Flow cytometry analysis showed that FITC-SFN-AF was efficiently internalized by both cell lines, which was confirmed by confocal microscopy imaging. SFN enhanced the cytotoxicity of AF in 2D cultures in both CRC lines. Promising results were also obtained in 3D culture paving the way for future application of this strategy as a therapy for CRC.

用于治疗结直肠癌的负载蚕丝纤维素纳米粒子。
结肠直肠癌(CRC)是全球癌症相关死亡的第二大常见原因,尤其在年轻人中的发病率逐年上升。在寻找治疗这种疾病的创新方法时,药物输送系统(DDS)因其独特的性能而大有可为,它能以较低的药物浓度改善治疗效果,克服耐药性,同时还有可能减少副作用。蚕丝纤维素是一种生物聚合物,可通过加工获得生物相容性和可生物降解的纳米粒子,这种纳米粒子可通过表面吸附有效负载小分子治疗药物,并通过调节药代动力学实现药物的运输和持续释放。最近,奥拉诺芬(Auranofin,AF)因其强大的抗癌活性而被重新利用,目前正在进行临床试验。其作用机制是通过抑制硫氧还蛋白还原酶,硫氧还蛋白还原酶在多个细胞内过程中发挥着重要作用,并在某些肿瘤中过度表达。考虑到 AF 在水中的溶解度较低,我们建议将蚕丝纤维素纳米颗粒(SFN)作为 AF 的载体,以提高其生物利用度,增加细胞吸收,防止其降解或避免一些抗药性机制。在此,我们报告了负载 AF 的蚕丝纤维素纳米颗粒(SFN-AF)的新配方的制备和表征、其与 FITC 的功能化以分析细胞吸收,以及其在二维和三维细胞培养中对人类结直肠癌细胞系(HT29 和 HCT116)的细胞毒活性。三维球形模型提供了一个三维环境,模拟了在体内观察到的 CRC 的三维特征,是筛选治疗 CRC 的疗法的有效三维环境。负载的纳米粒子呈球形,流体力学直径约为 160 nm,由于其表面带负电荷,在水溶液中具有良好的稳定性。FESEM-EDX 分析表明,纳米颗粒表面均匀分布着电子密度很高的金簇。SFN-AF 在 37 °C 磷酸盐缓冲液中孵育 10 天,可释放出 77% 的负载 AF,显示出初始爆发和随后的持续释放。流式细胞术分析表明,FITC-SFN-AF 被两种细胞系有效内化,这一点也得到了共聚焦显微镜成像的证实。在二维培养中,SFN 增强了 AF 对两种 CRC 株系的细胞毒性。在三维培养中也取得了令人鼓舞的结果,为将来应用这种策略治疗 CRC 铺平了道路。
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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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