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'Naïve' pluripotent human embryonic stem cells created

Date:
July 24, 2014
Source:
Whitehead Institute for Biomedical Research
Summary:
Embryonic stem cell (ESC) research has been hampered by the inability to transfer research and tools from mouse ESC studies to their human counterparts, in part because human ESCs are “primed” and slightly less plastic than the mouse cells. Now researchers have discovered how to manipulate and maintain human ESCs into a “naïve” or base pluripotent state similar to that of mouse ESCs without the use of any reprogramming factors.

Phase and fluorescence images of conventional (primed) human embryonic stem cells (ESCs) and naïve human ESCs generated in the presence of 5 small molecule inhibitors. The naïve human ESCs exhibit activation of a fluorescent reporter linked to an enhancer of the OCT4 gene that is specifically used in the naïve state. 40X magnification.
Credit: Courtesy of Thorold Theunissen

For years, researchers and patients have hoped that embryonic stem cells (ESCs) -- capable of forming nearly any cell type in the body -- could provide insight into numerous diseases perhaps even be used to treat them. Yet progress has been hampered by the inability to transfer research and tools from mouse ESC studies to their human counterparts, in part because human ESCs are "primed" and slightly less plastic than the mouse cells.

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Now Thorold Theunissen, Benjamin Powell, and Haoyi Wang, who are scientists in the lab of Whitehead Institute Founding Member Rudolf Jaenisch, have discovered how to manipulate and maintain human ESCs in a "naïve" or base pluripotent state similar to that of mouse ESCs without the use of any reprogramming factors. Their work is described in this week's issue of the journal Cell Stem Cell.

Naïve mouse ESCs are well-studied, and scientists have a strong understanding of how they function and mature into more specialized cells. But this understanding is of limited use in human ESC research, as the human cells look different, grow differently, and rely on different genes than mouse ESCs. According to Theunissen, the disparities between mouse and human ESCs are attributable not to species-specific differences but rather to differences of cell state.

In naïve mouse ESCs, a particular enhancer of the gene OCT4 is active, prompting the researchers to look for the presence of this marker as a means to identify rare naïve human ESCs. With this unbiased reporter system in hand, the Jaenisch team determined that a cocktail of five small molecules with a few additional growth factors can induce and support the conversion of primed human ESCs to a naïve state with or without using reprogramming factors to jumpstart the process.

By applying this cocktail to human blastocysts, the scientists could also isolate naïve human stem cells.

"This is important because if this cocktail only works in existing lines of human ESCs, you might wonder, does this really capture a distinct state or is this artificial?" says Theunissen. "Since the cocktail works directly on human blastocysts, I think it suggests that we're really capturing a cell state that is already present in the early human embryo."

Although other labs have recently reported creating naïve human ESCs, Theunissen, Powell, and Wang question these results as the cells produced through these techniques lack the gene expression and epigenetic profiles of naïve human ESCs. Yet, the Jaenisch lab believes they have now finally unlocked a way to create and maintain this important type of cell and are looking forward to exploring its potential.

"We have discovered a new pathway to generate something we believe is a totally different state of pluripotency in human ESCs that is very close to the mouse naïve state," says Jaenisch, who is also a professor of biology at MIT. "These cells may be essential for ESC technology, and that is an area we're looking forward to investigating. Now the big question for us is, does this state exist in vivo in embryos? Right now, we don't know, and that is a very interesting line of research."

This work is supported by the Simons Foundation (SFLIFE #286977), the National Institutes of Health (NIH; grant RO1-CA084198), a Sir Henry Wellcome Postdoctoral Fellowship, a Boehringer Ingelheim Fonds PhD Fellowship, and a Jerome and Florence Brill Graduate Student Fellowship. Jaenisch is co-founder of Fate Therapeutics and an adviser to Stemgent.


Story Source:

The above story is based on materials provided by Whitehead Institute for Biomedical Research. The original article was written by Nicole Giese Rura. Note: Materials may be edited for content and length.


Journal Reference:

  1. Thorold W. Theunissen, Benjamin E. Powell, Haoyi Wang, Maya Mitalipova, Dina A. Faddah, Jessica Reddy, Zi Peng Fan, Dorothea Maetzel, Kibibi Ganz, Linyu Shi, Tenzin Lungjangwa, Sumeth Imsoonthornruksa, Yonatan Stelzer, Sudharshan Rangarajan, Ana D’Alessio, Jianming Zhang, Qing Gao, Meelad M. Dawlaty, Richard A. Young, Nathanael S. Gray, Rudolf Jaenisch. Systematic Identification of Culture Conditions for Induction and Maintenance of Naive Human Pluripotency. Cell Stem Cell, 2014; DOI: 10.1016/j.stem.2014.07.002

Cite This Page:

Whitehead Institute for Biomedical Research. "'Naïve' pluripotent human embryonic stem cells created." ScienceDaily. ScienceDaily, 24 July 2014. <www.sciencedaily.com/releases/2014/07/140724123645.htm>.
Whitehead Institute for Biomedical Research. (2014, July 24). 'Naïve' pluripotent human embryonic stem cells created. ScienceDaily. Retrieved December 19, 2014 from www.sciencedaily.com/releases/2014/07/140724123645.htm
Whitehead Institute for Biomedical Research. "'Naïve' pluripotent human embryonic stem cells created." ScienceDaily. www.sciencedaily.com/releases/2014/07/140724123645.htm (accessed December 19, 2014).

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