Nanoparticles combat ageing
Spanish scientists have developed a nanodevice that may have applications in the future development of therapies against ageing and provides promise for the treatment of age-related diseases such as cancer and Parkinsonโs Disease. The device, which is detailed in Angewandte Chemie, consists of nanoparticles that can selectively release drugs in aged (or senesced) human cells. The device consists of mesoporous nanoparticles with a galactooligosaccharide outer surface that prevents load release and that only selectively opens in senescent cells.
โThe proof of concept demonstrates for the first time that selected chemicals can be released in these cells and not in others,โ said Ramรณn Martรญnez Mรกรฑez who contributed to the research.
Senescence or biological ageing is a physiological process of accumulated changes to the cell metabolism with the passage of time, resulting in deterioration and death. When we are young, senescence prevents the appearance of tumours, but with age, senescent cells accumulate in organs and tissues and can disrupt their proper functioning.
โThe elimination of these cells would slow down the appearance of diseases associated with ageing,โ explained researcher Jose Ramon Murgui
The researchers evaluated the usefulness of the new devices in primary cell cultures derived from patients with accelerated ageing syndrome dyskeratosis congenital (DC). These cells show a high percentage of senescence characterised by elevated levels of the activity of the enzyme beta-galactosidase.
โThe aging cells overexpress this enzyme so we have designed nanoparticles that open when detected and release their contents in order to eliminate senescent cells, prevent deterioration or even reactivate for their rejuvenation,โ explained researcher Josรฉ Ramรณn Murguรญa.
The next step is to test the device with therapeutic agents and validate it in animal models. โAs far as we know this is the first time that a nanotherapy for senescent cells has been described. We believe that our research may open new paths for developing therapies for the treatment of age-related diseases,โ Mรกรฑez added.
Related Content
When plasma leaves the laboratory
The orbital laboratory is evolving into something more ambitious, a controlled industrial environment for producing next-generation materials, explainsย Ed Smithย andย Andrew Griffiths. …
NMRC site provides first โterrestrial anchorโ for UK space manufacturing
Work has finished on what will be the UKโs first in-space manufacturing hub, the new National Microgravity Research Centre (NMRC) …
Bath combines biology and chemistry to thwart cancer drivers
University of Bath researchers are harnessing bacteria to develop millions of potential drug molecules inside living cells, in order to …
