Nanog in iPS cells and during reprogramming

2022 ◽  
pp. 319-348
Author(s):  
Camila Vazquez Echegaray ◽  
Alejandra Sonia Guberman
Keyword(s):  
2019 ◽  
Author(s):  
Takeshi Kimura ◽  
Kie Yasuda ◽  
Yukako Nakano ◽  
Shinji Takeyari ◽  
Yasuji Kitabatake ◽  
...  

Author(s):  
Kasai T ◽  
Suga H ◽  
Sakakibara   ◽  
Ozone C ◽  
Matsumoto R ◽  
...  
Keyword(s):  

PLoS ONE ◽  
2013 ◽  
Vol 8 (12) ◽  
pp. e83563 ◽  
Author(s):  
Taiki Hiyama ◽  
Nobuaki Ozeki ◽  
Makio Mogi ◽  
Hideyuki Yamaguchi ◽  
Rie Kawai ◽  
...  

2021 ◽  
Vol 22 (6) ◽  
pp. 2978
Author(s):  
Chie-Hong Wang ◽  
Chun-Hao Tsai ◽  
Tsung-Li Lin ◽  
Shih-Ping Liu

Mesenchymal stem (MS) cells, embryonic stem (ES) cells, and induced pluripotent stem (iPS) cells are known for their ability to differentiate into different lineages, including chondrocytes in culture. However, the existing protocol for chondrocyte differentiation is time consuming and labor intensive. To improve and simplify the differentiation strategy, we have explored the effects of interactions between growth factors (transforming growth factor β1 (Tgfb1) and colony stimulating factor 3 (Csf3), and culture environments (2D monolayer and 3D nanofiber scaffold) on chondrogenic differentiation. For this, we have examined cell morphologies, proliferation rates, viability, and gene expression profiles, and characterized the cartilaginous matrix formed in the chondrogenic cultures under different treatment regimens. Our data show that 3D cultures support higher proliferation rate than the 2D cultures. Tgfb1 promotes cell proliferation and viability in both types of culture, whereas Csf3 shows positive effects only in 3D cultures. Interestingly, our results indicate that the combined treatments of Tgfb1 and Csf3 do not affect cell proliferation and viability. The expression of cartilaginous matrix in different treatment groups indicates the presence of chondrocytes. We found that, at the end of differentiation stage 1, pluripotent markers were downregulated, while the mesodermal marker was upregulated. However, the expression of chondrogenic markers (col2a1 and aggrecan) was upregulated only in the 3D cultures. Here, we report an efficient, scalable, and convenient protocol for chondrogenic differentiation of iPS cells, and our data suggest that a 3D culture environment, combined with tgfb1 and csf3 treatment, promotes the chondrogenic differentiation.


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