human embryonic stem cell
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2022 ◽  
Vol 116 ◽  
pp. 34-42
Author(s):  
Shengxian Liang ◽  
Guoqiang Liang ◽  
Yue Zhang ◽  
Xiufang Zhang ◽  
Li Zhong

2022 ◽  
pp. 102660
Author(s):  
Sujittra Khampang ◽  
Chuti Laowtammathron ◽  
Chanchao Lorthongpanich ◽  
Phatchanat Klaihmon ◽  
Pimjai Chingsuwanrote ◽  
...  

Author(s):  
Sara Menegatti ◽  
Bethany Potts ◽  
Eva Garcia-Alegria ◽  
Roberto Paredes ◽  
Michael Lie-A-Ling ◽  
...  

The transcription factor RUNX1 is a master regulator of blood cell specification. During embryogenesis, hematopoietic progenitors are initially generated from hemogenic endothelium through an endothelium-to-hematopoietic transition controlled by RUNX1. Several studies have dissected the expression pattern and role of RUNX1 isoforms at the onset of mouse hematopoiesis, however the precise pattern of RUNX1 isoform expression and biological output of RUNX1-expressing cells at the onset of human hematopoiesis is still not fully understood. Here, we investigated these questions using a RUNX1b:VENUS RUNX1c:TOMATO human embryonic stem cell line which allows multi-parameter single cell resolution via flow cytometry and isolation of RUNX1b-expressing cells for further analysis. Our data reveal the sequential expression of the two RUNX1 isoforms with RUNX1b expressed first in a subset of endothelial cells and during the endothelial to hematopoietic transition while RUNX1c only becomes expressed in fully specified blood cells. Furthermore, our data show that RUNX1b marks endothelial cells endowed with hemogenic potential and that RUNX1b expression level determines hemogenic competency in a dose-dependent manner. Together our data reveal the dynamic of RUNX1 isoforms expression at the onset of human blood specification and establish RUNX1b isoform as the earliest known marker for hemogenic competency.


2021 ◽  
pp. 102625
Author(s):  
Chuyu Li ◽  
Lingbo Cai ◽  
Juan Dong ◽  
Song Ning ◽  
Jing Zhou ◽  
...  

2021 ◽  
pp. 102631
Author(s):  
Shuai Zhang ◽  
Tianwei Guo ◽  
Yuanxiu Song ◽  
Mengqi Jiang ◽  
Youxu Jiang ◽  
...  

2021 ◽  
Vol 6 (1) ◽  
Author(s):  
Frank A. Petrigliano ◽  
Nancy Q. Liu ◽  
Siyoung Lee ◽  
Jade Tassey ◽  
Arijita Sarkar ◽  
...  

AbstractOsteoarthritis (OA) impacts hundreds of millions of people worldwide, with those affected incurring significant physical and financial burdens. Injuries such as focal defects to the articular surface are a major contributing risk factor for the development of OA. Current cartilage repair strategies are moderately effective at reducing pain but often replace damaged tissue with biomechanically inferior fibrocartilage. Here we describe the development, transcriptomic ontogenetic characterization and quality assessment at the single cell level, as well as the scaled manufacturing of an allogeneic human pluripotent stem cell-derived articular chondrocyte formulation that exhibits long-term functional repair of porcine articular cartilage. These results define a new potential clinical paradigm for articular cartilage repair and mitigation of the associated risk of OA.


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