Application of multifunctional nanomaterials in cancer vaccines

被引：16

作者：

Fu, Biao ^{[1
]}

Huang, Xiaomei ^{[1
]}

Deng, Jiaqi ^{[2
]}

Gu, Daijiao ^{[1
]}

Mei, Qibing ^{[3
]}

Deng, Mingming ^{[1
]}

Tang, Shixiao ^{[1
]}

Lu, Muhan ^{[1
]}

机构：

[1] Southwest Med Univ, Affiliated Hosp, Dept Gastroenterol, Zhongshan Campus 319,Sect 3,Zhongshan Rd, Luzhou 646000, Sichuan, Peoples R China

[2] Southwest Med Univ, Sch Foreign Languages, Luzhou 646000, Sichuan, Peoples R China

[3] Southwest Med Univ, Sch Pharm, Dept Pharmacol, Lab Mol Pharmacol, Luzhou 646000, Sichuan, Peoples R China

来源：

ONCOLOGY REPORTS | 2018年 / 39卷 / 03期

关键词：

multifunctional nanomaterial; cancer vaccine; cancer immunotherapy; cross-presentation; tumor microenvironment; ANTITUMOR IMMUNITY; ANTIGEN DELIVERY; DENDRITIC CELLS; MACROPHAGE POLARIZATION; CROSS-PRESENTATION; NANOPARTICLES; THERAPY; ADJUVANT; ACTIVATION; GENERATION;

D O I：

10.3892/or.2018.6206

中图分类号：

R73 [肿瘤学];

学科分类号：

100214 ;

摘要：

Tumor immunotherapy has been in development for more than a century. With the rapid developments in biotechnology research in recent years, immunotherapy has become a promising oncotherapy strategy after surgery, chemotherapy and radiotherapy. Cancer vaccines are a promising new treatment strategy and the application of nanotechnology in cancer vaccines, greatly enhances their effectiveness. Such applications indicate the bright prospects of tumor immunotherapy. The multifunctional nanomaterials used in cancer vaccines and their practical application in specific cancer vaccines are hereby reviewed. In addition, a preliminary analysis of the current and prospective use of nanotechnology with the purpose of providing solutions to cancer vaccine challenges is presented.

引用

页码：893 / 900

页数：8

共 55 条

[1] Cancer therapy and vaccination
Aly, Hamdy A. A.
[J]. JOURNAL OF IMMUNOLOGICAL METHODS, 2012, 382 (1-2) : 1 - 23
[2] Berger M, 2007, J PHARM PHARM SCI, V10, P144
[3] Near-infrared dye bound albumin with separated imaging and therapy wavelength channels for imaging-guided photothermal therapy
Chen, Qian
Wang, Chao
Zhan, Zhixiong
He, Weiwei
Cheng, Zhenping
Li, Youyong
Liu, Zhuang
[J]. BIOMATERIALS, 2014, 35 (28) : 8206 - 8214
[4] TUMOR VASCULAR-PERMEABILITY FACTOR STIMULATES ENDOTHELIAL-CELL GROWTH AND ANGIOGENESIS
CONNOLLY, DT
HEUVELMAN, DM
NELSON, R
OLANDER, JV
EPPLEY, BL
DELFINO, JJ
SIEGEL, NR
LEIMGRUBER, RM
FEDER, J
[J]. JOURNAL OF CLINICAL INVESTIGATION, 1989, 84 (05) : 1470 - 1478
[5] Targeting Nanosystems to Human DCs via Fc Receptor as an Effective Strategy to Deliver Antigen for Immunotherapy
Cruz, Luis J.
Rueda, Felix
Cordobilla, Begona
Simon, Lorena
Hosta, Leticia
Albericio, Fernando
Caries Domingo, Joan
[J]. MOLECULAR PHARMACEUTICS, 2011, 8 (01) : 104 - 116
[6] Coating of mannan on LPD particles containing HPV E7 peptide significantly enhances immunity against HPV-positive tumor
Cui, ZG
Han, SJ
Huang, L
[J]. PHARMACEUTICAL RESEARCH, 2004, 21 (06) : 1018 - 1025
[7] To exploit the tumor microenvironment: Passive and active tumor targeting of nanocarriers for anti-cancer drug delivery
Danhier, Fabienne
Feron, Olivier
Preat, Veronique
[J]. JOURNAL OF CONTROLLED RELEASE, 2010, 148 (02) : 135 - 146
[8] Particulate vaccines: on the quest for optimal delivery and immune response
De Temmerman, Marie-Luce
Rejman, Joanna
Demeester, Jo
Irvine, Darrell J.
Gander, Bruno
De Smedt, Stefaan C.
[J]. DRUG DISCOVERY TODAY, 2011, 16 (13-14) : 569 - 582
[9] Differential lysosomal proteolysis in antigen-presenting CeRs determines antigen fate
Delamarre, L
Pack, M
Chang, H
Mellman, I
Trombetta, ES
[J]. SCIENCE, 2005, 307 (5715) : 1630 - 1634
[10] Immunological properties of engineered nanomaterials
Dobrovolskaia, Marina A.
Mcneil, Scott E.
[J]. NATURE NANOTECHNOLOGY, 2007, 2 (08) : 469 - 478

← 1 2 3 4 5 6 →