Anti-wrinkle cream could hold key to tissue growth
Release Date 01 November 2010
The first study to investigate the chemical structure of an advanced class of anti-wrinkle cream has shown that it could be used to promote wound healing and regenerative medicine.
Chemists at the University of Reading researched the nanostructure of a cosmetic ingredient used in high performance skincare creams - a peptide amphiphile (PA).
Many skincare products use peptides to treat wrinkles. Skin is made up mostly of collagen; it is the foundation that gives your skin its support and thickness. Young people have lots of collagen and taut, smooth skin. In contrast, older people have much less collagen and thin, wrinkled skin.
Collagen is protein and is made up of long chains of amino acids strung together, like chains of linked building blocks. When it is broken down, short segments form, called peptides, and these act as a signal to tell your skin it is damaged and needs to make new collagen. The new research has revealed how the chemical structure of the PA allows this to happen.
Professor Ian Hamley, from the Department of Chemistry, investigated the PA found in Matrixyl - an ingredient used in high end/state-of-the-art anti-ageing creams. He found that the PA contains a dense network of fine fibres that can act as an excellent scaffold for collagen to adhere to. This also has potential applications in tissue growth.
Professor Hamley said: "This the first report to our knowledge on a peptide amphiphile in current commercial use. Understanding the self-assembled structure is important in developing the next generation of collagen-stimulating peptides for applications not just for cosmetic skincare products but for wound healing and in regenerative medicine."
The paper, Fibrillar Superstructure from Extended Nanotapes Formed by a Collagen-Stimulating Peptide' by Valeria Castelletto, Ian W Hamley*, Javier Perez, Ludmilla Anezgaux and Dganit Danino, is published in Chemical Communications, DOI: 10.1039/c0cc03793a
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Notes to editors
The Department of Chemistry has 25 research-active staff, with over £7.5m of current grants - mainly from UK Research Councils. Underpinning the Department's work is a newly-established Chemical Analysis Facility, funded by a £4.5m award from the University. This open-access facility serves the analytical needs of the University and features state-of-the-art instrumentation.
Research in Chemistry is organised via six main themes: Atmospheric and Environmental Chemistry; Inorganic Materials; Polymeric Materials; Organic and Biomolecular Chemistry; Analytical Methods; and Interfacial Chemistry. The Polymeric Materials team was very recently awarded a prestigious EPSRC 'Platform' grant (£1.1 M) to sustain and develop its research on nanostructured polymers for use in healthcare and energy applications.