学术探索
学术期刊
学术作者
新闻热点
数据分析
智能评审

Non-matrigel scaffolds for organoid cultures

被引:122
作者
Kaur, Savneet [1 ]
Kaur, Impreet [1 ]
Rawal, Preety [1 ,2 ]
Tripathi, Dinesh M. [1 ]
Vasudevan, Ashwini [1 ]
机构
[1] Inst Liver & Biliary Sci, Dept Mol & Cellular Med, New Delhi, India
[2] Gautam Buddha Univ, Sch Biotechnol, Greater Noida, UP, India
来源
CANCER LETTERS | 2021年 / 504卷
关键词
Hydrogel; Matrigel; Organoids; Scaffolds; Stem cells; 3D cultures;
D O I
10.1016/j.canlet.2021.01.025
中图分类号
R73 [肿瘤学];
学科分类号
100214 [肿瘤学];
摘要
Organoids are three-dimensional cell cultures mostly from tissue-resident or embryonic stem cells (one or multiple) on hydrogels along with defined growth factors. Currently, matrigel is the most commonly employed matrix for 3D organoid cultures. However, certain undesirable attributes of matrigel have paved the way for several other natural and synthetic hydrogel scaffolds for organoid cultures. In this review, we discuss the constraints of matrigel and describe other alternative scaffolds that have been used for organoid cultures. Given the potential of organoids in a plethora of therapeutic and pharmaceutical applications, it is indeed imperative to develop defined and customized hydrogels other than the matrigel.
引用
收藏
页码:58 / 66
页数:9
相关论文
共 61 条
[1]
Synthetic alternatives to Matrigel [J].
Aisenbrey, Elizabeth A. ;
Murphy, William L. .
NATURE REVIEWS MATERIALS, 2020, 5 (07) :539-551
[2]
Nanoparticle toxicity assessment using an in vitro 3-D kidney organoid culture model [J].
Astashkina, Anna I. ;
Jones, Clint F. ;
Thiagarajan, Giridhar ;
Kurtzeborn, Kristen ;
Ghandehari, Hamid ;
Brooks, Benjamin D. ;
Grainger, David W. .
BIOMATERIALS, 2014, 35 (24) :6323-6331
[3]
Lgr5+ve Stem Cells Drive Self-Renewal in the Stomach and Build Long-Lived Gastric Units In Vitro [J].
Barker, Nick ;
Huch, Meritxell ;
Kujala, Pekka ;
van de Wetering, Marc ;
Snippert, Hugo J. ;
van Es, Johan H. ;
Sato, Toshiro ;
Stange, Daniel E. ;
Begthel, Harry ;
van den Born, Maaike ;
Danenberg, Esther ;
van den Brink, Stieneke ;
Korving, Jeroen ;
Abo, Arie ;
Peters, Peter J. ;
Wright, Nick ;
Poulsom, Richard ;
Clevers, Hans .
CELL STEM CELL, 2010, 6 (01) :25-36
[4]
Proteomic analysis of decellularized pancreatic matrix identifies collagen V as a critical regulator for islet organogenesis from human pluripotent stem cells [J].
Bi, Huanjing ;
Ye, Kaiming ;
Jin, Sha .
BIOMATERIALS, 2020, 233
[5]
Broguiere N., 2020, ADV FUNCT MATER, V102
[6]
3D heterogeneous islet organoid generation from human embryonic stem cells using a novel engineered hydrogel platform [J].
Candiello, Joseph ;
Grandhi, Taraka Sai Pavan ;
Goh, Saik Kia ;
Vaidya, Vimal ;
Lemmon-Kishi, Maya ;
Eliato, Kiarash Rahmani ;
Ros, Robert ;
Kumta, Prashant N. ;
Rege, Kaushal ;
Banerjee, Ipsita .
BIOMATERIALS, 2018, 177 :27-39
[7]
Nonadhesive Alginate Hydrogels Support Growth of Pluripotent Stem Cell-Derived Intestinal Organoids [J].
Capeling, Meghan M. ;
Czerwinski, Michael ;
Huang, Sha ;
Tsai, Yu-Hwai ;
Wu, Angeline ;
Nagy, Melinda S. ;
Juliar, Benjamin ;
Sundaram, Nambirajan ;
Song, Yang ;
Han, Woojin M. ;
Takayama, Shuichi ;
Alsberg, Eben ;
Garcia, Andres J. ;
Helmrath, Michael ;
Putnam, Andrew J. ;
Spence, Jason R. .
STEM CELL REPORTS, 2019, 12 (02) :381-394
[8]
A 3D tension bioreactor platform to study the interplay between ECM stiffness and tumor phenotype [J].
Cassereau, Luke ;
Miroshnikova, Yekaterina A. ;
Ou, Guanqing ;
Lakins, Johnathon ;
Weaver, Valerie M. .
JOURNAL OF BIOTECHNOLOGY, 2015, 193 :66-69
[9]
Chitosan 3D cell culture system promotes naive-like features of human induced pluripotent stem cells: A novel tool to sustain pluripotency and facilitate differentiation [J].
Chang, Po-Hsiang ;
Chao, Hsiao-Mei ;
Chern, Edward ;
Hsu, Shan-hui .
BIOMATERIALS, 2021, 268
[10]
PEG-4MAL hydrogels for human organoid generation, culture, and in vivo delivery [J].
Cruz-Acuna, Ricardo ;
Quiros, Miguel ;
Huang, Sha ;
Siuda, Dorothee ;
Spence, Jason R. ;
Nusrat, Asma ;
Garcia, Andres J. .
NATURE PROTOCOLS, 2018, 13 (09) :2102-2119
1234567