Biomaterials get stem cells to commit to a bony future

Posted: Published on January 7th, 2014

This post was added by Dr. Richardson

PUBLIC RELEASE DATE:

6-Jan-2014

Contact: Daniel Kane dbkane@ucsd.edu 858-534-3262 University of California - San Diego

With the help of biomimetic matrices, a research team led by bioengineers at the University of California, San Diego has discovered exactly how calcium phosphate can coax stem cells to become bone-building cells. This work is published in the Proceedings of the National Academy of Sciences the week of Jan. 6, 2014.

UC San Diego Jacobs School of Engineering professor Shyni Varghese and colleagues have traced a surprising pathway from these biomaterials to bone formation. Their findings will help them refine the design of biomaterials that encourage stem cells to give rise to new bone. The researchers say their study may also point out new targets for treating bone defects and bone metabolic disorders such as major fractures and osteoporosis.

The materials are built to mimic the body's own cellular niches, in which undifferentiated or "blank-slate" stem cells from bone marrow transform into specific bone-forming cells. "We knew for years that calcium phosphate-based materials promote osteogenic differentiation of stem cells, but none of us knew why," Varghese said.

"As engineers, we want to build something that is reproducible and consistent," she explained, "so we need to know how building factors contribute to this end."

The researchers found that when phosphate ions gradually dissolve from these materials, they are taken up by the stem cells and used for the production of ATP, a key metabolic molecule. An ATP metabolic product called adenosine then signals the stem cells to commit to becoming bone-forming cells.

Varghese said it was a surprise to her team that "the biomaterials were connected to metabolic pathways. And we didn't know how these metabolic pathways could influence stem cells' commitment to bone formation."

While the PNAS findings only apply to bone building, Varghese and her students at UC San Diego are working on a variety of projects to understand how stem cells thrive and differentiate into a variety of cell types. With this information, they hope to design biomaterials that can be used to help transform stem cells into tissues that may someday replace diseased or degenerated bone, muscle, or blood vessels.

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Biomaterials get stem cells to commit to a bony future

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