Wang Xia, Qiao Li, Yu Xiao, Wang Xiaoshan, Jiang Lixin, Wang Qigang
School of Chemical Science and Engineering, Tongji University, 1239 Siping Road, Shanghai 200092, China.
Experimental Center, Shandong University of Traditional Chinese Medicine, 4655 Daxue Road, Jinan 250355, China.
ACS Biomater Sci Eng. 2019 Nov 11;5(11):5888-5896. doi: 10.1021/acsbiomaterials.9b01065. Epub 2019 Nov 1.
Bioinspired by nature, macroscopic and transcellular self-assembly fueled by chemical or enzymatic reaction has been widely developed, but the controllable self-assembly of peptides around nanosurface remains challenging. Herein, an amidation-fueled self-assembly of oligopeptides and the following enzymatic cross-linking has been introduced to prepare mesoporous silica nanoparticle (MSN)-based ternary inorganic-supramolecular-polymeric nanogels as the multifunctional theranostic agent for combined ultrasound imaging and imaging-guided high-intensity focused ultrasound (HIFU) therapy. In this approach, supramolecular hybrid nanogels (MSN-GI) were first obtained by self-assembling of peptide gelators (NapFFK, NapFFK-acrylic) due to the surface amidation reaction and therefore decrease of pH value. Subsequently, redox stimuli-responsive supramolecular-polymeric hybrid nanogels (MSN-GII) were further obtained via laccase-mediated radical postpolymerization of vinyl peptide gelators with monomer and disulfide cross-linker. The multifunctional theranostic agent (MSN-GII@PFH&DOX) has been finally constructed by loading the therapeutic and ultrasound-sensitive guest molecules (doxorubicin, perfluorohexane). Both the and ultrasound contrast imaging and imaging-guided HIFU ablation therapy indicate that this supramolecular-polymeric hybrid nanogel system can serve as a potential theranostic agent for efficient tumor-responsive drug release, intensified ultrasound contrast imaging, and enhanced imaging-guided HIFU therapy.
受自然启发,由化学或酶促反应驱动的宏观和跨细胞自组装已得到广泛发展,但肽在纳米表面周围的可控自组装仍然具有挑战性。在此,引入了酰胺化驱动的寡肽自组装及其后的酶促交联,以制备基于介孔二氧化硅纳米颗粒(MSN)的三元无机-超分子-聚合物纳米凝胶,作为用于联合超声成像和成像引导高强度聚焦超声(HIFU)治疗的多功能诊疗剂。在这种方法中,由于表面酰胺化反应以及pH值降低,通过肽凝胶剂(NapFFK、NapFFK-丙烯酸酯)的自组装首先获得超分子杂化纳米凝胶(MSN-GI)。随后,通过漆酶介导的乙烯基肽凝胶剂与单体和二硫键交联剂的自由基后聚合,进一步获得氧化还原刺激响应性超分子-聚合物杂化纳米凝胶(MSN-GII)。最终通过负载治疗性和超声敏感客体分子(阿霉素、全氟己烷)构建了多功能诊疗剂(MSN-GII@PFH&DOX)。超声造影成像和成像引导的HIFU消融治疗均表明,这种超分子-聚合物杂化纳米凝胶系统可作为一种潜在的诊疗剂,用于高效的肿瘤响应性药物释放、增强的超声造影成像以及增强的成像引导HIFU治疗。
