Zhang Li, Wang Yang, Yang Yuting, Liu Yayuan, Ruan Shaobo, Zhang Qianyu, Tai Xiaowei, Chen Jiantao, Xia Tai, Qiu Yue, Gao Huile, He Qin
Key Laboratory of Drug Targeting and Drug Delivery Systems, West China School of Pharmacy, Sichuan University, No. 17, Block 3, Southern Renmin Road, Chengdu, Sichuan 610041, China.
ACS Appl Mater Interfaces. 2015 May 13;7(18):9691-701. doi: 10.1021/acsami.5b01473. Epub 2015 May 1.
The network of collagen I in tumors could prevent the penetration of drugs loaded in nanoparticles, and this would lead to impaired antitumor efficacy. In this study, free losartan (an angiotensin inhibitor) was injected before treatment to reduce the level of collagen I, which could facilitate the penetration of nanoparticles. Then the pH-sensitive cleavable liposomes (Cl-Lip) were injected subsequently to exert the antitumor effect. The Cl-Lip was constituted by PEG(5K)-Hydrazone-PE and DSPE-PEG(2K)-R8. When the Cl-Lip reached to the tumor site by the enhanced permeability and retention (EPR) effect, PEG(5K)-Hydrazone-PE was hydrolyzed from the Cl-Lip under the low extra-cellular pH conditions of tumors, then the R8 peptide was exposed, and finally liposomes could be internalized into tumor cells by the mediation of R8 peptide. In vitro experiments showed both the cellular uptake of Cl-Lip by 4T1 cells and cytotoxicity of paclitaxel loaded Cl-Lip (PTX-Cl-Lip) were pH sensitive. In vivo experiments showed the Cl-Lip had a good tumor targeting ability. After depletion of collagen I, Cl-Lip could penetrate into the deep place of tumors, the tumor accumulation of Cl-Lip was further increased by 22.0%, and the oxygen distributed in tumor tissues was also enhanced. The antitumor study indicated free losartan in combination with PTX-Cl-Lip (59.8%) was more effective than injection with PTX-Cl-Lip only (37.8%) in 4T1 tumor bearing mice. All results suggested that depletion of collagen I by losartan dramatically increased the penetration of PTX-Cl-Lip and combination of free losartan and PTX-CL-Lip could lead to better antitumor efficacy of chemical drugs. Thus, the combination strategy might be a promising tactic for better treatment of solid tumors with a high level of collagen I.
肿瘤中I型胶原蛋白网络可阻止负载于纳米颗粒中的药物渗透,这会导致抗肿瘤疗效受损。在本研究中,在治疗前注射游离氯沙坦(一种血管紧张素抑制剂)以降低I型胶原蛋白水平,从而促进纳米颗粒的渗透。随后注射pH敏感的可裂解脂质体(Cl-Lip)以发挥抗肿瘤作用。Cl-Lip由PEG(5K)-腙-PE和DSPE-PEG(2K)-R8组成。当Cl-Lip通过增强的通透性和滞留(EPR)效应到达肿瘤部位时,PEG(5K)-腙-PE在肿瘤细胞外低pH条件下从Cl-Lip水解,然后R8肽暴露,最终脂质体可通过R8肽的介导内化进入肿瘤细胞。体外实验表明,4T1细胞对Cl-Lip的细胞摄取以及负载紫杉醇的Cl-Lip(PTX-Cl-Lip)的细胞毒性均对pH敏感。体内实验表明Cl-Lip具有良好的肿瘤靶向能力。在I型胶原蛋白耗竭后,Cl-Lip可渗透到肿瘤深部,Cl-Lip在肿瘤中的蓄积进一步增加了22.0%,肿瘤组织中分布的氧气也有所增加。抗肿瘤研究表明,在荷4T1肿瘤小鼠中,游离氯沙坦联合PTX-Cl-Lip(59.8%)比仅注射PTX-Cl-Lip(37.8%)更有效。所有结果表明,氯沙坦使I型胶原蛋白耗竭显著增加了PTX-Cl-Lip的渗透,游离氯沙坦与PTX-Cl-Lip联合使用可使化学药物产生更好的抗肿瘤疗效。因此,这种联合策略可能是治疗I型胶原蛋白水平高的实体瘤的一种有前景的策略。
