Department of Ultrasound, Union Hospital, Tongji Medical College, Huazhong University of Science and Technology, Wuhan 430022, China.
Department of Cardiovascular Surgery, Union Hospital, Tongji Medical College, Huazhong University of Science and Technology, Wuhan 430022, China.
Biomater Sci. 2019 Sep 1;7(9):3729-3740. doi: 10.1039/c9bm00301k. Epub 2019 Aug 12.
Targeted delivery of immunosuppressants to allografts can increase the concentrations of drugs in pathological tissues, improve therapeutic effects and reduce unfavorable side effects. Therefore, we synthesized FK506-loaded microbubbles (FK506-MBs) for site-specific release of FK506 into transplanted hearts by the ultrasound-targeted microbubble destruction (UTMD) technique. The average particle size of FK506-MBs was 1.65 ± 0.32 μm and they had high drug loading and encapsulation efficiency. The in vivo drug concentration in transplanted hearts that were treated with FK506-MBs plus UTMD was about 1.64-fold higher than that in grafts that received free FK506 at the same dosage. The degree of graft rejection in the FK506-MB plus UTMD group was lower than those of other groups. Both infiltration of T cells and secretion of inflammatory cytokines were significantly reduced in the FK506-MB plus UTMD group. More importantly, the mean survival time of the grafts was significantly longer (16.00 ± 0.89 day) than those of the PBS group (6.66 ± 1.36 day) and the FK506 group (12.83 ± 1.17 day). In addition, we also found that the concentration of FK506 in whole blood was lower in the FK506-MB plus UTMD group than that in the FK506 group, which would be beneficial for reducing the side effects. Hence, our results showed that combining FK506-MBs with UTMD was an effective strategy to deliver FK506 to transplanted hearts, which can increase the local drug concentration and enhance its efficacy on rejection. Ultrasound-targeted drug release is safe and radiation-free, with great potential for clinical transformation, and could also be extended to the treatment of other graft rejection cases, such as liver transplantation, kidney transplantation and so on.
靶向递送至同种异体移植物的免疫抑制剂可以增加药物在病理性组织中的浓度,提高治疗效果并减少不利的副作用。因此,我们合成了负载 FK506 的微泡(FK506-MBs),以便通过超声靶向微泡破坏(UTMD)技术将 FK506 特异性递送至移植心脏。FK506-MBs 的平均粒径为 1.65±0.32μm,具有较高的载药量和包封效率。用 FK506-MBs 加 UTMD 处理的移植心脏中的体内药物浓度约为相同剂量下接受游离 FK506 的移植物的 1.64 倍。FK506-MB 加 UTMD 组的移植物排斥程度低于其他组。FK506-MB 加 UTMD 组的 T 细胞浸润和炎症细胞因子的分泌均显著减少。更重要的是,移植物的平均存活时间明显延长(16.00±0.89 天),明显长于 PBS 组(6.66±1.36 天)和 FK506 组(12.83±1.17 天)。此外,我们还发现 FK506-MB 加 UTMD 组的全血中 FK506 浓度低于 FK506 组,这有利于减少副作用。因此,我们的结果表明,将 FK506-MBs 与 UTMD 相结合是将 FK506 递送至移植心脏的有效策略,可增加局部药物浓度并增强其对排斥反应的疗效。超声靶向药物释放安全且无辐射,具有很大的临床转化潜力,也可扩展用于治疗其他移植物排斥病例,如肝移植、肾移植等。
