Tumor Microenvironment-Responsive Polypeptide Nanogels for Controlled Antitumor Drug Delivery

被引:12
作者
Liu, Yanhong [1 ]
Chen, Linjiao [1 ]
Shi, Qingyang [1 ]
Zhao, Qing [2 ]
Ma, Hongshuang [3 ]
机构
[1] Jilin Univ, Hosp 1, Ctr Prenatal Diag, Ctr Reprod Med, Changchun, Peoples R China
[2] Jilin Univ, Hosp 1, Dept Obstet, Changchun, Peoples R China
[3] First Hosp Jilin Univ, Dept Rheumatol & Immunol, Changchun, Peoples R China
来源
FRONTIERS IN PHARMACOLOGY | 2021年 / 12卷
关键词
nanogels; stimulus-responsive; drug delivery; polypeptide; nanoparticle; copolymer; OVERCOMING MULTIDRUG-RESISTANCE; INTRACELLULAR DELIVERY; POLYMERIC MICELLES; UPTAKE MECHANISMS; PHASE-TRANSITION; HYBRID MICELLES; CANCER; NANOPARTICLES; SURFACE; DESIGN;
D O I
10.3389/fphar.2021.748102
中图分类号
R9 [药学];
学科分类号
1007 ;
摘要
Tumor microenvironment-responsive polypeptide nanogels belong to a biomaterial with excellent biocompatibility, easily adjustable performance, biodegradability, and non-toxic properties. They are developed for selective delivery of antitumor drugs into target organs to promote tumor cell uptake, which has become an effective measure of tumor treatment. Endogenous (such as reduction, reactive oxygen species, pH, and enzyme) and exogenous (such as light and temperature) responsive nanogels can release drugs in response to tumor tissues or cells to improve drug distribution and reduce drug side effects. This article systematically introduces the research progress in tumor microenvironment-responsive polypeptide nanogels to deliver antitumor drugs and provides a reference for the development of antitumor nanoformulations.
引用
收藏
页数:20
相关论文
共 109 条
[1]   Dual-responsive crosslinked pluronic micelles as a carrier to deliver anticancer drug taxol [J].
Abdullah-Al-Nahain ;
Nam, Jeong A. ;
Mok, Hyejung ;
Lee, Yong-Kyu ;
Park, Sung Young .
MACROMOLECULAR RESEARCH, 2013, 21 (01) :92-99
[2]   Tumor microenvironment-targeted poly-L-glutamic acid-based combination conjugate for enhanced triple negative breast cancer treatment [J].
Arroyo-Crespo, Juan J. ;
Arminan, Ana ;
Charbonnier, David ;
Balzano-Nogueira, Leandro ;
Huertas-Lopez, Francisco ;
Marti, Cristina ;
Tarazona, Sonia ;
Forteza, Jeronimo ;
Conesa, Ana ;
Vicent, Maria J. .
BIOMATERIALS, 2018, 186 :8-21
[3]   Intelligent polymeric micelles from functional poly(ethylene glycol)-poly(amino acid) block copolymers [J].
Bae, Younsoo ;
Kataoka, Kazunori .
ADVANCED DRUG DELIVERY REVIEWS, 2009, 61 (10) :768-784
[4]   Multicompartment Intracellular Self-Expanding Nanogel for Targeted Delivery of Drug Cocktail [J].
Bahadur, Remant K. C. ;
Xu, Peisheng .
ADVANCED MATERIALS, 2012, 24 (48) :6479-6483
[5]   Stimulus-Responsive Degradable Polylactide-Based Block Copolymer Nanoassemblies for Controlled/Enhanced Drug Delivery [J].
Bawa, Kamaljeet K. ;
Oh, Jung Kwon .
MOLECULAR PHARMACEUTICS, 2017, 14 (08) :2460-2474
[6]   Principles of nanoparticle design for overcoming biological barriers to drug delivery [J].
Blanco, Elvin ;
Shen, Haifa ;
Ferrari, Mauro .
NATURE BIOTECHNOLOGY, 2015, 33 (09) :941-951
[7]   New technology for deep light distribution in tissue for phototherapy [J].
Chen, J ;
Keltner, L ;
Christopherson, J ;
Zheng, F ;
Krouse, M ;
Singhal, A ;
Wang, SS .
CANCER JOURNAL, 2002, 8 (02) :154-163
[8]   Spatiotemporally Targeted Nanomedicine Overcomes Hypoxia-Induced Drug Resistance of Tumor Cells after Disrupting Neovasculature [J].
Chen, Jinjin ;
Jiang, Zhongyu ;
Xu, Weiguo ;
Sun, Tianmeng ;
Zhuang, Xiuli ;
Ding, Jianxun ;
Chen, Xuesi .
NANO LETTERS, 2020, 20 (08) :6191-6198
[9]   Sequentially Responsive Shell-Stacked Nanoparticles for Deep Penetration into Solid Tumors [J].
Chen, Jinjin ;
Ding, Jianxun ;
Wang, Yucai ;
Cheng, Jianjun ;
Ji, Shengxiang ;
Zhuang, Xiuli ;
Chen, Xuesi .
ADVANCED MATERIALS, 2017, 29 (32)
[10]   Receptor and Microenvironment Dual-Recognizable Nanogel for Targeted Chemotherapy of Highly Metastatic Malignancy [J].
Chen, Jinjin ;
Ding, Jianxun ;
Xu, Weiguo ;
Sun, Tianmeng ;
Xiao, Haihua ;
Zhuang, Xiuli ;
Chen, Xuesi .
NANO LETTERS, 2017, 17 (07) :4526-4533
12345678910