Tumors normally possess irregular vasculature, and tend to outstrip blood supplement and become hypoxia or ischemia, resulting in the resistances of the tumor to conventional chemotherapy and radiotherapy. New therapies are required to target hypoxic or ischemic areas in tumors. In this study, we investigate the feasibility of using macrophages to infiltrate hypoxic or ischemic areas in tumors, as the carriers of drug-loaded phase-change droplets. RAW 264.7 cells (mouse leukaemic monocyte macrophage cell line) were used to ingest the drug-loaded phase-change droplets. The droplets were composed of lipid, perfluoropentane (PFP) and chemotherapeutic drug - doxorubicin (DOX). Fluorescence spectrophotometer was used to quantify the drug encapsulation efficiency. For evaluating DOX-droplets uptake efficiency, cell viability and migration mobility of DOX-droplet loaded macrophages, flow cytometric analysis, Alamar Blue assay, and transmembrane cell migration assay were measured, respectively. The results demonstrate the feasibility of using macrophages to deliver DOX-loaded phase-change droplets. Ultrasound-triggered vaporization was also performed to investigate the drug liberation efficiency from the droplet-loaded macrophages. Future works include the assessments of the tumor infiltration ability of droplet-loaded macrophages and the liberated drug payload via ultrasound-triggered vaporization in vivo.
展开▼
机译:肿瘤通常具有不规则的脉管系统,并且倾向于出现血液补充,并成为缺氧或缺血,导致肿瘤对常规化疗和放射疗法的抗性。需要新的疗法来靶向肿瘤中的缺氧或缺血区域。在这项研究中,我们调查使用巨噬细胞渗透肿瘤中缺氧或缺血区域的可行性,作为药物加载的相变液滴的载体。 Raw 264.7细胞(小鼠白细胞单核细胞巨噬细胞系)用于摄取药物加载的相变液滴。液滴由脂质,全氟化丁烷(PFP)和化学治疗药物 - 多柔比星(DOX)组成。荧光分光光度计用于量化药物包封效率。为了评估DOX-DROPLLET吸收效率,分别测量了DOX-opllet的摄取效率,细胞活力和迁移迁移率,流式细胞术分析,Alamar蓝色测定和跨膜细胞迁移测定。结果证明了使用巨噬细胞提供DOX加载的相变液滴的可行性。还进行超声触发的蒸发,以研究来自液滴加载的巨噬细胞的药物释放效率。未来的作用包括通过体内超声触发蒸发的液滴加载巨噬细胞和释放药物有效载荷的肿瘤浸润能力的评估。
展开▼
