Artificial muscle sheets transform stem cells into bone

Artificial muscle sheets transform stem cells into bone
The shape-memory polymer actuator sheet coated with stem cells shrunken when cold (left) and stretched when heated (right). Credit: Polymeric sheet actuators with programmable bioinstructivity, Zijun Deng, Weiwei Wang, Xun Xu, Oliver Gould, Karl Kratz, Nan Ma, and Andreas Lendlein, Proceedings of the National Academy of Sciences, 2020, doi: 10.1073/pnas.1910668117

Specifically programmed materials can, under specific conditions, encourage stem cells to transform into bone cells—as revealed by a German research team under the leadership of the Helmholtz-Zentrum Geesthacht, Centre for Materials and Coastal Research. To do this, the scientists implemented a so-called shape-memory polymer in stem cell research. The study was published today in the renowned journal, Proceedings of the National Academy of Sciences.

Stem are known for their ability to turn into many different types of cell, be they muscle cells, cartilage, or . Just like the body they are part of, sense what happens around them and react accordingly. For decades, researchers have been learning how to steer this differentiation process by changing the cells' environment. The knowledge acquired is already being used in , in other words, to generate substitute materials that restore or maintain damaged biological tissues. However, most research has been done on static scaffolds. Now, researchers from the Helmholtz-Zentrum Geesthacht (HZG), the Berlin-Brandenburg Centre for Regenerative Therapies, the Freien Universität Berlin and the Helmholtz Virtual Institute for Multifunctional Biomaterials in medicine have used a dynamic scaffold.

New method

The researchers took a that acts like an artificial muscle. The sheet has the unusual property in that it is trained to reversibly morph when exposed to repeated temperature changes. The researchers simply moulded a grid onto the underside of the sheet and programmed it to stretch as the temperature went from body temperature (37 °C) to 10 °C and to contract when re-heated. They then seeded the sheet with stem cells, and carefully observed the changing shape of the gridded sheet and cells. With the help of this "artificial muscle", the scientists could use one physical signal—the temperature change—to simultaneously send a second mechanical signal to the stem cells. With these synchronised stimuli it is possible to encourage the stem cells to turn themselves into cells.

"Our polymer actuator sheet has a so-called shape-memory function. In our experiments, this allows it to act like a transducer, with which we can effectively instruct the cells to do as we wish. We found that the changes in temperature, combined with the repeated stretching motion of the film was enough to encourage the stem cells to differentiate into bone cells," explained Professor Andreas Lendlein an author of the paper and head of the HZG's Institute of Biomaterial Science in Teltow, Germany.

Artificial muscle sheets transform stem cells into bone
The stem cells grown on the polymer that changes shape at a programmed temperature could perhaps one day be used to support the healing of severely fractured bones. Credit: HZG/Xun Xu

Potential application in complex bone fractures

"The programmed polymer sheets could, for example, later be used to treat bones broken so severely that the body can't repair it by itself. Stem cells from a patient's bone marrow could be cultured on the sheet and adaptively wrap around the bone during an operation. The previously "trained" cells could then directly strengthen the bones," said Professor Lendlein. Given the recent report in New Scientist of a successful operation at 10 °C at the University of Maryland School of Medicine, such medical implants could become yet another tool in a surgeon's toolkit.

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More information: Zijun Deng el al., "Polymeric sheet actuators with programmable bioinstructivity," PNAS (2019).
Citation: Artificial muscle sheets transform stem cells into bone (2020, January 13) retrieved 3 July 2022 from
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