State Key Laboratory of Applied Organic Chemistry, Key Laboratory of Nonferrous Metal Chemistry and Resources Utilization of Gansu Province, and College of Chemistry and Chemical Engineering, Lanzhou University, Lanzhou, Gansu 730000, China.
Hunan Province Cooperative Innovation Center for Molecular Target New Drug Study & Department of Pharmacy and Pharmacology, University of South China, Hengyang, 421001, China.
Acta Biomater. 2022 May;144:15-31. doi: 10.1016/j.actbio.2022.03.028. Epub 2022 Mar 17.
Synthesis of polyfluorene (PF) based theranostic amphiphilic copolymers with simultaneously high drug loading efficiency and tumor microenvironment-specific responsiveness for promoted intracellular drug release and enhanced cancer therapy has been rarely reported likely due to the lack of efficient synthetic approaches to integrate these desirable properties. In this work, we recorded the successful preparation of well-defined theranostic amphiliphilic bottlebrush copolymers composing of fluorescent backbone of PF and tunable enzyme-degradable side chains of polytyrosine (PTyr) and POEGMA by integrating Suzuki coupling, NCA ROP and ATRP techniques. Notably, the resulting copolymer, PF-g-(PTyr-b-(POEGMA) (P) with two branched POEGMA brushes tethered to one PTyr termini for each unit could form steady unimolecular micelles with higher fluorescence quantum yield of 18.3% in aqueous and greater entrapment efficiency (EE) of 91.0% for DOX ascribed to the efficient π-π stacking interactions between PTyr blocks and drug molecules and the unique structure of branched hydrophilic brushes with a moderate chain length. DOX@P micelles revealed visualization of intracellular trafficking and accelerated drug release due to the enzyme-triggered degradation of PTyr blocks with proteinase K and subsequent deshielding of POEGMA corona for micelle destruction. In vitro and In vivo animal study further verified the intensive therapeutic efficiency with attenuated systematic toxicity. Taken together, we provided a universal strategy toward multifunctional polymeric delivery vehicles based on conjugated PF and biocompatible and degradable polypeptide by integratied Suzuki coupling and NCA ROP, and identified the branched structure of hydrophilic brushes for better performance of bottlebrush copolymers-based micelles for drug delivery applications. STATEMENT OF SIGNIFICANCE: Synthesis of polyfluorene (PF)-based theranostic amphiphilic copolymers with simultaneously high drug loading efficiency and tumor microenvironment-specific responsiveness for promoted intracellular drug release and enhanced cancer therapy has been rarely reported likely due to the lack of efficient synthetic approaches to integrate these desirable properties. We reported herein successful preparation of enzyme-responsive theranostic amphiliphilic bottlebrush copolymers with simultaneously high drug loading efficiency and tumor microenvironment-specific responsiveness for enhanced chemotherapy in vivo. This study therefore not only developed a universal strategy for the construction of multifunction polymeric vehicles based on the conjugated polymer of PF and degradable polypeptide by integrated Suzuki coupling and NCA ROP, but also emphasized the better stability of micelles endowed by the branched hydrophilic brushes than linear ones.
基于聚芴(PF)的诊疗两亲性嵌段共聚物的合成,具有同时高药物负载效率和肿瘤微环境特异性响应,以促进细胞内药物释放和增强癌症治疗,由于缺乏将这些理想性质集成的有效合成方法,因此很少有报道。在这项工作中,我们通过整合 Suzuki 偶联、NCA ROP 和 ATRP 技术,成功地制备了由 PF 的荧光主链和可调节的酶降解侧链聚酪氨酸(PTyr)和 POEGMA 组成的定义明确的诊疗两亲性刷状嵌段共聚物。值得注意的是,所得共聚物 PF-g-(PTyr-b-(POEGMA)(P),每个单元具有两个支化的 POEGMA 刷连接到一个 PTyr 末端,可在水性中形成稳定的单分子胶束,荧光量子产率为 18.3%,阿霉素的包封效率(EE)为 91.0%,这归因于 PTyr 嵌段和药物分子之间的有效π-π堆积相互作用以及具有适度链长的支化亲水刷的独特结构。DOX@P 胶束由于蛋白酶 K 触发的 PTyr 嵌段降解以及随后 POEGMA 冠状物的去屏蔽导致胶束破坏,从而显示出细胞内转运的可视化和加速药物释放。体外和体内动物研究进一步证实了具有减弱的系统毒性的强化治疗效果。总之,我们通过整合 Suzuki 偶联和 NCA ROP,为基于共轭 PF 和生物相容性可降解多肽的多功能聚合物递送载体提供了一种通用策略,并确定了支化亲水刷的结构,以提高基于刷状共聚物的胶束在药物递送应用中的性能。意义声明:基于聚芴(PF)的治疗两亲性嵌段共聚物的合成,具有同时高药物负载效率和肿瘤微环境特异性响应,以促进细胞内药物释放和增强癌症治疗,由于缺乏将这些理想性质集成的有效合成方法,因此很少有报道。我们在此报告了具有同时高药物负载效率和肿瘤微环境特异性响应的酶响应治疗两亲性瓶刷嵌段共聚物的成功制备,用于增强体内化疗。因此,这项研究不仅开发了一种基于 PF 共轭聚合物和可降解多肽的多功能聚合物载体构建的通用策略,通过整合 Suzuki 偶联和 NCA ROP,还强调了支化亲水刷赋予的胶束比线性亲水刷更好的稳定性。
