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New way to form bioactive spider silk for medical use

Date:
December 4, 2017
Source:
KTH The Royal Institute of Technology
Summary:
Technology hasn't quite mastered the spider's ability to form silk proteins into structures. But a new technique has been developed that can form silk structures without relying on chemicals that compromise their usefulness in medical applications.
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Technology hasn't quite mastered the spider's ability to form silk proteins into structures. But a new technique has been developed that can form silk structures without relying on chemicals that compromise their usefulness in medical applications.

With recent advances, technology can be used to synthesize silk with mechanical properties similar to those of an actual spider's silk. But applying this material to promising medical therapies for illnesses such as cancer requires that humans develop a capability that only arachnids or silkworms possess -- the ability to control the formation of silk.

A technique reported in Advanced Materials offers a promising alternative to experimental silk forming methods that rely on harsh chemicals, says Associate Professor My Hedhammar, a researcher at KTH Royal Institute of Technology in Stockholm.

Because of its strength, which is comparable to Kevlar, and high elasticity, spider silk has drawn attention for its potential use in medicine. Researchers are hopeful that it can serve as scaffolding for tissue repair, or be used for drug delivery, sensing of biomarkers and antimicrobial coatings.

But finding a satisfactory method of giving form to silk-mimicking proteins has proven elusive for those interested in such medical applications.

"Attempts have been made to imitate the spinning process using, for example, microfluidic systems, wet-spinning and electrospinning," Hedhammar says. "Many of these processes are quite complex to design and require harsh chemicals such as methanol to render the threads water insoluble after formation, which would kill the bioactivity that's needed for these medical uses."

Instead, the researchers drew on recently-developed biochemistry techniques that use micropatterned surfaces in order to concentrate proteins and form organic nanowires, coatings or sheets.

Resembling an incredibly small hairbrush, the surface the team used is comprised of micro-sized silicon pillars, which were rendered water repellent with an anti-wetting agent.

Two types of silk proteins were designed -- one with an affinity to antibodies, and another with cell binding properties.

By placing droplets of the soluble silk proteins on top of the pillars, the team was able to achieve three distinct formations of synthetic silk: nanowires (which could be used in cancer therapy), local coatings (potentially useful in biomarker detection) and silk sheets (which could be used as cell growth scaffolds).

To create nanowires, for example, the researchers placed a droplet on the surface, and then dragged the droplet laterally, leaving strands of the material spanning the pillars.

Similarly, to create a sheet, the scientists left a droplet to evaporate on top of the surface. The stability of the sheets was tested by submerging them in water, as well as in a cell culture medium, for a number of days.

"The sheets remained intact, without visual signs of being dissolved, confirming that the proteins had transformed into a stable silk form," says co-author Professor Wouter van der Wijngaart of KTH.


Story Source:

Materials provided by KTH The Royal Institute of Technology. Note: Content may be edited for style and length.


Journal Reference:

  1. Linnea Gustafsson, Ronnie Jansson, My Hedhammar, and Wouter van der Wijngaart. Structuring of Functional Spider Silk Wires, Coatings, and Sheets by Self-Assembly on Superhydrophobic Pillar Surfaces. Advanced Materials, December 2017 DOI: 10.1002/adma.201704325

Cite This Page:

KTH The Royal Institute of Technology. "New way to form bioactive spider silk for medical use." ScienceDaily. ScienceDaily, 4 December 2017. <www.sciencedaily.com/releases/2017/12/171204091427.htm>.
KTH The Royal Institute of Technology. (2017, December 4). New way to form bioactive spider silk for medical use. ScienceDaily. Retrieved December 21, 2024 from www.sciencedaily.com/releases/2017/12/171204091427.htm
KTH The Royal Institute of Technology. "New way to form bioactive spider silk for medical use." ScienceDaily. www.sciencedaily.com/releases/2017/12/171204091427.htm (accessed December 21, 2024).

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