Department of Ultrasonography, The First Affiliated Hospital of Wenzhou Medical University, Wenzhou City, Zhejiang Province, China.
Department of Pharmaceutics, School of Pharmaceutical Sciences, Wenzhou Medical University, Wenzhou City, Zhejiang Province, China.
Artif Cells Nanomed Biotechnol. 2020 Dec;48(1):143-158. doi: 10.1080/21691401.2019.1699821.
Surgical resection remains the preferred approach for some patients with glioblastoma (GBM), and eradication of the residual tumour niche after surgical resection is very helpful for prolonging patient survival. However, complete surgical resection of invasive GBM is difficult because of its ambiguous boundary. Herein, a novel targeting material, c(RGDyk)-poloxamer-188, was synthesized by modifying carboxyl-terminated poloxamer-188 with a glioma-targeting cyclopeptide, c(RGDyk). Quantum dots (QDs) as fluorescent probe were encapsulated into the self-assembled c(RGDyk)-poloxamer-188 polymer nanoparticles (NPs) to construct glioma-targeted QDs-c(RGDyk)NP for imaging-guided surgical resection of GBM. QDs-c(RGDyk)NP exhibited a moderate hydrodynamic diameter of 212.4 nm, a negative zeta potential of -10.1 mV and good stability. QDs-c(RGDyk)NP exhibited significantly lower toxicity against PC12 and C6 cells and HUVECs than free QDs. Moreover, cellular uptake experiments demonstrated that QDs-c(RGDyk)NP specifically targeted C6 cells, making them display strong fluorescence. Combined with ultrasound-targeted microbubble destruction (UTMD), QDs-c(RGDyk)NP specifically accumulated in glioma tissue in orthotropic tumour rats after intravenous administration, evidenced by NIR fluorescence imaging of bulk brain and glioma tissue sections. Furthermore, fluorescence imaging with QDs-c(RGDyk)NP guided accurate surgical resection of glioma. Finally, the safety of QDs-c(RGDyk)NP was verified using pathological HE staining. In conclusion, QDs-c(RGDyk)NP may be a potential imaging probe for imaging-guided surgery.
手术切除仍然是一些胶质母细胞瘤(GBM)患者的首选治疗方法,而手术切除后残余肿瘤龛的消除对延长患者生存非常有帮助。然而,由于其边界不明确,侵袭性 GBM 的完全手术切除是困难的。在此,通过用Glioma 靶向环肽 c(RGDyk)修饰羧基末端的泊洛沙姆 188,合成了一种新型靶向材料 c(RGDyk)-泊洛沙姆-188。将量子点(QDs)作为荧光探针包封到自组装的 c(RGDyk)-泊洛沙姆-188 聚合物纳米粒子(NPs)中,构建了用于成像引导 GBM 手术切除的Glioma 靶向 QDs-c(RGDyk)NP。QDs-c(RGDyk)NP 表现出中等的水动力直径为 212.4nm,负 zeta 电位为-10.1mV,具有良好的稳定性。QDs-c(RGDyk)NP 对 PC12 和 C6 细胞和 HUVECs 的毒性明显低于游离 QDs。此外,细胞摄取实验表明,QDs-c(RGDyk)NP 特异性靶向 C6 细胞,使其显示出强烈的荧光。结合超声靶向微泡破坏(UTMD),QDs-c(RGDyk)NP 在荷瘤大鼠静脉给药后特异性积聚在胶质瘤组织中,这可以通过对大脑和胶质瘤组织切片进行近红外荧光成像来证明。此外,使用 QDs-c(RGDyk)NP 进行荧光成像可以指导胶质瘤的精确手术切除。最后,通过病理 HE 染色验证了 QDs-c(RGDyk)NP 的安全性。总之,QDs-c(RGDyk)NP 可能是一种用于成像引导手术的潜在成像探针。
