Key Laboratory of Nuclear Medicine, Ministry of Health, Jiangsu Key Laboratory of Molecular Nuclear Medicine, Jiangsu Institute of Nuclear Medicine, Wuxi 214063, PR China.
Key Laboratory of Nuclear Medicine, Ministry of Health, Jiangsu Key Laboratory of Molecular Nuclear Medicine, Jiangsu Institute of Nuclear Medicine, Wuxi 214063, PR China.
J Photochem Photobiol B. 2017 Sep;174:243-250. doi: 10.1016/j.jphotobiol.2017.08.003. Epub 2017 Aug 3.
In order to improve the efficacy of photodynamic therapy (PDT), biotin was axially conjugated with silicon(IV) phthalocyanine (SiPc) skeleton to develop a new tumor-targeting photosensitizer SiPc-biotin. The target compound SiPc-biotin showed much higher binding affinity toward BR-positive (biotin receptor overexpressed) HeLa human cervical carcinoma cells than its precursor SiPc-pip. However, when the biotin receptors of HeLa cells were blocked by free biotin, >50% uptake of SiPc-biotin was suppressed, demonstrating that SiPc-biotin could selectively accumulate in BR-positive cancer cells via the BR-mediated internalization. The confocal fluorescence images further confirmed the target binding ability of SiPc-biotin. As a consequence of specificity of SiPc-biotin toward BR-positive HeLa cells, the photodynamic effect was also largely dependent on the BR expression level of HeLa cells. The photodynamic activities of SiPc-biotin against HeLa cells were dramatically reduced when the biotin receptors were blocked by the free biotin (IC: 0.18μM vs. 0.46μM). It is concluded that SiPc-biotin can selectively damage BR-positive cancer cells under irradiation. Furthermore, the dark toxicity of SiPc-biotin toward human normal liver cell lines LO2 was much lower than that of its precursor SiPc-pip. The targeting photodynamic activity and low dark toxicity suggest that SiPc-biotin is a promising photosensitizer for tumor-targeting photodynamic therapy.
为了提高光动力疗法(PDT)的疗效,将生物素轴向共轭到硅(IV)酞菁(SiPc)骨架上,开发了一种新的肿瘤靶向光敏剂 SiPc-生物素。目标化合物 SiPc-生物素对 BR 阳性(过表达生物素受体)HeLa 人宫颈癌细胞的结合亲和力明显高于其前体 SiPc-pip。然而,当 HeLa 细胞的生物素受体被游离生物素阻断时,SiPc-生物素的摄取量>50%被抑制,表明 SiPc-生物素可以通过 BR 介导的内化选择性地积聚在 BR 阳性癌细胞中。共聚焦荧光图像进一步证实了 SiPc-生物素的靶向结合能力。由于 SiPc-生物素对 BR 阳性 HeLa 细胞的特异性,光动力效应也在很大程度上取决于 HeLa 细胞的 BR 表达水平。当生物素受体被游离生物素阻断时,SiPc-生物素对 HeLa 细胞的光动力活性大大降低(IC:0.18μM 对 0.46μM)。结果表明,SiPc-生物素在照射下可以选择性地破坏 BR 阳性癌细胞。此外,SiPc-生物素对人正常肝细胞系 LO2 的暗毒性明显低于其前体 SiPc-pip。靶向光动力活性和低暗毒性表明 SiPc-生物素是一种很有前途的用于肿瘤靶向光动力治疗的光敏剂。
