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Link between heart, blood, and skeletal muscle

Date:
May 2, 2013
Source:
University of Minnesota Academic Health Center
Summary:
New research has shown that by turning on just a single gene, Mesp1, different cell types including the heart, blood and muscle can be created from stem cells.
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Gene thought to make heart tissues turns out to make blood and muscles as well

New research out of the Lillehei Heart Institute at the University of Minnesota shows that by turning on just a single gene, Mesp1, different cell types including the heart, blood and muscle can be created from stem cells. The study was published in the journal Cell Stem Cell.

"Previous research indicated that this gene was the "master regulator" for development of the heart, and that its activity prevented the differentiation of other cell types," said Michael Kyba, Ph.D., associate professor in the University of Minnesota Medical School Department of Pediatrics and a Lillehei endowed scholar. "Our work reveals that this gene acts differently, and that it plays a role in the development of blood and skeletal muscle as well. The outcome depends on the chemical signals that cells expressing this factor sense in their environment."

The research was conducted in the Kyba Lab by lead author Sunny Chan, Ph.D., a postdoctoral associate in the lab.

Stem cell researchers have been trying to generate different cell types for regenerative medicine for years. The gene Mesp1 was particularly interesting to cardiac researchers because it was believed to be a master regulator, sitting at the pinnacle of a gene hierarchy driving cardiac differentiation, blocking the differentiation of other cell types.

However, this research turns that assumption on its head.

A carefully designed study, aimed at understanding precisely what Mesp1 does at different points in time as stem cells develop, revealed that the gene can do so much more than previously thought.

By turning Mesp1 on and off at specific time windows and fine-tuning the culture environment, stem cells can be coached to become not just heart cells, but also blood and muscle cells.

"This is totally out of the blue, but our discovery brings some conflicting findings about Mesp1 together," said Chan. "Some previous studies reported Mesp1 could not make heart cells in certain contexts. We now know why."

The Kyba team further shows Mesp1 is present in the cells that go on to become adult stem cells in the bone marrow which form new blood cells, and stem cells in the skeletal muscles, which form new muscle fibers.

"We are amazed at what a single gene can do," said Chan. "By understanding what Mesp1 does, we are more likely to make different cell types from stem cells more efficiently. We are one step closer to using stem cell technology for regenerative medicine."

Funding for this study was provided by National Institutes for Health (NIH) grants U01 HL100407 and R01 AR055685, along with contributions from the American Heart Association-Jon Holden DeHaan Foundation. Additional grants from the NIH support researchers involved in this project: T32 AR007612 and T32 HL069764.


Story Source:

Materials provided by University of Minnesota Academic Health Center. Note: Content may be edited for style and length.


Journal Reference:

  1. Sunny Sun-Kin Chan, Xiaozhong Shi, Akira Toyama, Robert W. Arpke, Abhijit Dandapat, Michelina Iacovino, Jinjoo Kang, Gengyun Le, Hannah R. Hagen, Daniel J. Garry, Michael Kyba. Mesp1 Patterns Mesoderm into Cardiac, Hematopoietic, or Skeletal Myogenic Progenitors in a Context-Dependent Manner. Cell Stem Cell, 2013; 12 (5): 587 DOI: 10.1016/j.stem.2013.03.004

Cite This Page:

University of Minnesota Academic Health Center. "Link between heart, blood, and skeletal muscle." ScienceDaily. ScienceDaily, 2 May 2013. <www.sciencedaily.com/releases/2013/05/130502185425.htm>.
University of Minnesota Academic Health Center. (2013, May 2). Link between heart, blood, and skeletal muscle. ScienceDaily. Retrieved March 28, 2024 from www.sciencedaily.com/releases/2013/05/130502185425.htm
University of Minnesota Academic Health Center. "Link between heart, blood, and skeletal muscle." ScienceDaily. www.sciencedaily.com/releases/2013/05/130502185425.htm (accessed March 28, 2024).

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