传统抗体偶联药物(antibody drug conjugates,ADC)通过将单克隆抗体与细胞毒性药物相结合,实现对癌细胞的精准打击,但在稳定性、靶向性、疗效及安全性等方面依然存在诸多不足。新型ADC,如双特异性、位点特异性、双有效载荷和前药型ADC,...传统抗体偶联药物(antibody drug conjugates,ADC)通过将单克隆抗体与细胞毒性药物相结合,实现对癌细胞的精准打击,但在稳定性、靶向性、疗效及安全性等方面依然存在诸多不足。新型ADC,如双特异性、位点特异性、双有效载荷和前药型ADC,通过同时结合2个不同抗原或表位、选择更稳定的连接子、与抗体特定氨基酸位点偶联、携带不同药物有效载荷以及采用前药策略等优化方法,在保留传统ADC作用特点的基础上,显著提高药物的稳定性、靶向性、疗效和安全性,能更好地满足临床治疗的需求。新型ADC可能会在未来的癌症治疗中发挥重要的作用。探讨新型ADC在癌症治疗中的进展并分析其优势与挑战,可为开发抗癌策略提供理论支持,为药物研发提供方向。展开更多
Paclitaxel is a promising antineoplastic agent against a variety of human solid tumors, such as ovary, breast, lung, head and neck tumors, and melanoma. Owing to its poor solubility, the fast available formulation ofp...Paclitaxel is a promising antineoplastic agent against a variety of human solid tumors, such as ovary, breast, lung, head and neck tumors, and melanoma. Owing to its poor solubility, the fast available formulation ofpaclitaxel (Taxol) exists as a non-aqueous concentrate composed of Cremophor EL (polyethoxylated castor oil) and ethanol. It must be diluted to a suitable aqueous solution prior to long time intravenous infusion. Based on the components and usage, Taxol has serious adverse effects and is inconvenient for clinical use. To address these problems, the development of a less-toxic, better-tolerated, Cremophor EL-free formulation of paclitaxel has been attempted. In recent years, new drug delivery systems (DDS) including albumin-based nanoparticles, micelles, liposomes, etc. have been investigated. In this review, we present the formulations and delivery technologies of paclitaxel for injection and focus on some of preclinical and clinical experience on the formulations which are already on the market or under clinical stages. Finally, possible nanotechnology advantages, existing challenges and future perspectives of paclitaxel delivery are highlighted.展开更多
文摘传统抗体偶联药物(antibody drug conjugates,ADC)通过将单克隆抗体与细胞毒性药物相结合,实现对癌细胞的精准打击,但在稳定性、靶向性、疗效及安全性等方面依然存在诸多不足。新型ADC,如双特异性、位点特异性、双有效载荷和前药型ADC,通过同时结合2个不同抗原或表位、选择更稳定的连接子、与抗体特定氨基酸位点偶联、携带不同药物有效载荷以及采用前药策略等优化方法,在保留传统ADC作用特点的基础上,显著提高药物的稳定性、靶向性、疗效和安全性,能更好地满足临床治疗的需求。新型ADC可能会在未来的癌症治疗中发挥重要的作用。探讨新型ADC在癌症治疗中的进展并分析其优势与挑战,可为开发抗癌策略提供理论支持,为药物研发提供方向。
基金Key Project from the Ministry of Science and Technology(Grant No.2014ZX09507001-010)Innovation Team of Ministry of Education(Grant No.BMU20110263)
文摘Paclitaxel is a promising antineoplastic agent against a variety of human solid tumors, such as ovary, breast, lung, head and neck tumors, and melanoma. Owing to its poor solubility, the fast available formulation ofpaclitaxel (Taxol) exists as a non-aqueous concentrate composed of Cremophor EL (polyethoxylated castor oil) and ethanol. It must be diluted to a suitable aqueous solution prior to long time intravenous infusion. Based on the components and usage, Taxol has serious adverse effects and is inconvenient for clinical use. To address these problems, the development of a less-toxic, better-tolerated, Cremophor EL-free formulation of paclitaxel has been attempted. In recent years, new drug delivery systems (DDS) including albumin-based nanoparticles, micelles, liposomes, etc. have been investigated. In this review, we present the formulations and delivery technologies of paclitaxel for injection and focus on some of preclinical and clinical experience on the formulations which are already on the market or under clinical stages. Finally, possible nanotechnology advantages, existing challenges and future perspectives of paclitaxel delivery are highlighted.
