生物活性抗菌纳米颗粒在成纤维细胞中的内吞内化机制

IF 3.261
Maryam Ghaffari , Anil Kishen , Annie Shrestha
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引用次数: 0

摘要

研究光敏剂的吸收机制是开发理想的光敏剂用于光动力治疗(PDT)的重要一步。了解吸收机制可以帮助设计新的光敏剂,选择性地在靶组织中积累,改善药代动力学,并选择最佳剂量,以最大限度地提高治疗效果。在我们之前的研究中,我们合成并表征了以玫瑰红为功能化的壳聚糖纳米颗粒(CSRBnp)作为牙齿生物膜的光敏剂。本研究的目的是分析CSRBnps在成纤维细胞中的内化机制和细胞促炎活性。成纤维细胞(NIH 3T3)分别与氯丙嗪(5µg/ml)、制霉菌素(5µg/ml)、wortmannin (100 ng/ml)、CSRBnp (0.3 mg/ml)在4℃下孵育30 min。在不同的时间间隔(30 min、1、4、12 h)检测细胞活力(MTS法)、细胞内三磷酸腺苷含量(发光法)、ELISA法检测细胞因子表达(TNF-α)和Griess反应系统产生一氧化氮(NO),利用激发波长为405和568的活细胞成像共聚焦显微镜检测细胞核(Hoechst 33,342)和CSRBnps的内化情况。应用浓度的CSRBnps和抑制剂无细胞毒性。氯丙嗪组和无抑制剂组在12 h时ATP含量显著低于对照组。所有抑制剂在30 min、1 h和4 h时的CSRBnps摄取均显著低于对照组。与氯丙嗪和制霉菌素相比,Wortmannin对CSRBnps摄取的抑制作用最为显著(P <0.05)。在整个CSRBnps摄取过程中,TNF-α的表达和NO的产生均不显著。结果表明,巨量胞饮是成纤维细胞早期摄取CSRBnps的主要机制,非特异性摄取途径在培养时间延长后被激活。成纤维细胞对CSRBnps的摄取是能量依赖性的,不会引起任何促炎反应。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Endocytic internalization mechanism of bioactive antibacterial nanoparticles by fibroblasts

Studying the uptake mechanism of photosensitizers is an important step in developing an ideal photosensitizer for use in photodynamic therapy (PDT). Understanding the uptake mechanism can help design novel photosensitizers that are selectively accumulated in the target tissue, with improved pharmacokinetics, and are dosed optimally to maximize the efficacy of the treatment. In our previous studies we synthesized and characterized the use of chitosan nanoparticles functionalized with rose bengal (CSRBnp) as a photosensitizer against dental biofilm. The aim of this study is to analyze the internalization mechanism and cellular proinflammatory activities of CSRBnps on fibroblasts. Fibroblasts (NIH 3T3) were incubated with chlorpromazine (5 µg/ml), nystatin (5 µg/ml), wortmannin (100 ng/ml) and at 4 °C for 30 min followed by CSRBnp (0.3 mg/ml). Cell viability (MTS assay), intracellular adenosine triphosphate content (Luminescence assay), cytokine expression (TNF-α) using ELISA and nitric oxide (NO) production by Griess reaction system were conducted at different time intervals (30 min, 1, 4, and 12 h). The internalization of CSRBnps was analyzed using live cell imaging confocal microscope with excitation wavelengths of 405 and 568 to detect nuclei (Hoechst 33,342) and CSRBnps respectively. CSRBnps and inhibitors at the applied concentrations were not cytotoxic. ATP content in chlorpromazine and without inhibitors groups were significantly lower than the control group at 12 h. All inhibitors showed significantly lower CSRBnps uptake compared to the control group at 30 min, 1 h, and 4 h time. Wortmannin resulted in the most significant inhibition of CSRBnps uptake as compared to chlorpromazine and nystatin (P < 0.05). TNF-α expression and NO production were not significant during the entire CSRBnps uptake. The results showed macropinocytosis was a dominant CSRBnps uptake mechanism by fibroblasts in the early stages and non-specific uptake pathways were activated after prolonged incubation time. CSRBnps uptake by fibroblasts was energy dependent and did not cause any proinflammatory response.

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