Date: 24.7.2024
Snot might not be the first place you'd expect nanobots to be swimming around. But this slimy secretion exists in more places than just your nose and piles of dirty tissues – it also lines and helps protect the lungs, stomach, intestines and eyes.
And now, researchers reporting in ACS Nano have demonstrated in mice that their tiny, enzyme-powered "snot bots" can push through the defensive, sticky layer and potentially deliver drugs more efficiently.
Snot, known more scientifically as mucus, protects cells from pathogens and irritants by trapping them in a sticky barrier. But that protectiveness also keeps out locally administered drug treatments.
A drug molecule can be attached to a small nanoparticle that may help it slip through the barrier more easily or be co-administered with other compounds that help liquefy the mucus. But Samuel Sánchez and colleagues wanted to combine these strategies, and they made a nano-sized snot bot fueled by mucus-busting hydrogen peroxide (H2O2).
To build the nano-sized robots (10 of them lined up would span a red blood cell), researchers attached catalase enzymes to porous silica nanoparticles. The pores in these particles can be filled with drug molecules, helping them sneak through the mucus defenses like a Trojan horse. Initial tests showed that, when administered alongside H2O2, the catalase enzymes propelled the bots by breaking down the peroxide fuel into oxygen and water.
Image source: Serra-Casablancas et al. (2024), ACS Nano.
Gate2Biotech - Biotechnology Portal - All Czech Biotechnology information in one place.
ISSN 1802-2685
This website is maintained by: CREOS CZ
© 2006 - 2024 South Bohemian Agency for Support to Innovative Enterprising (JAIP)
Interesting biotechnology content:
Science Blogs - Blogs about science: Medicine, Biology, Physical science, ...
OECD Biotechnology Topic - Organisation for Economic Co-operation and Development
Engineered nanocomplexes achieve systemic gene silencing in crops
Creek survey uncovers bacteriophages that could combat superbugs