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Spa-1 regulates the maintenance and differentiation of human embryonic stem cells

Authors
Lee, Young-JinNah, Hee-YoungHong, Seok-HoLee, Ji-WonJeon, IlkyungPak, Jhang HoHuh, Joo-RyungKim, Sung-HoonChae, Hee-DongKang, Byling-MoonKim, Chul GeunKim, Chung-Hoon
Issue Date
Jan-2008
Publisher
University of the Basque Country Press
Keywords
signal transduction; fate decision; gene regulation; differentiation
Citation
International Journal of Developmental Biology, v.52, no.1, pp 43 - 53
Pages
11
Indexed
SCIE
SCOPUS
Journal Title
International Journal of Developmental Biology
Volume
52
Number
1
Start Page
43
End Page
53
URI
https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/179106
DOI
10.1387/ijdb.072274yl
ISSN
0214-6282
1696-3547
Abstract
Human embryonic stem cells (hESCs) are pluripotent, whereby they can proliferate endlessly and differentiate into many different cell types. At the molecular level, little is known of the mechanisms underlying their capability for self-renewal and differentiation. In the present study, we established two new hESC lines (AMC-hES1 and AMC-hES2) and demonstrated the existence of a regulator that may be a key molecule in hESC dynamics. Spa-1 is a principal Rasproximate 1 (Rap1) GTPase-activating protein in hematopoietic progenitor cells that regulates Rap1-related signal transduction and is expressed restrictively in human adult tissues (bone marrow, thymus, and spleen). To investigate its functions in hESCs, we examined spa-1 expression profiles during hESC differentiation and used RNA interference (RNAi) to downregulate spa-1 in these cells. Our results show that Spa-1 is expressed in undifferentiated hESCs and is downregulated during hESC differentiation. In addition, the process of passing from the mode of self-renewal to that of differentiation in hESCs was regulated by spa-1 via Rap1/Raf/mitogen-activated protein kinase kinase/extracellular signal-related kinase signaling. An RNAi expression vector against spa-1 (pSUPER.retro.puro) was transfected into hESCs, which were seen to differentiate into three germ layers in spite of being in the undifferentiated condition. Based on our findings, therefore, it appears that spa-1 may be involved in hESC dynamics, and our results provide fundamental information regarding the self-renewal and differentiation of hESCs.
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