Gold nanoparticles help in cancer treatment
Endothelial cells construct the interior of blood vessels and play a pivotal role in angiogenesis.
Washington: Researchers at the University of Southampton have developed new nanomaterials, which are capable of disrupting the blood supply to cancerous cells.
Physics lecturer Dr Antonios Kanaras and his team showed that a small dose of gold nanoparticles could activate or inhibit genes that are involved in angiogenesis - a complex process responsible for the supply of oxygen and nutrients to most types of cancer.
"The peptide-functionalised gold nanoparticles that we synthesised are very effective in the deliberate activation or inhibition of angiogenic genes," said Dr Kanaras.
The team went a step further to control the degree of damage to the endothelial cells using laser illumination. Endothelial cells construct the interior of blood vessels and play a pivotal role in angiogenesis.
The researchers also found that the gold particles could be used as effective tools in cellular nanosurgery.
Kanaras added: "We have found that gold nanoparticles can have a dual role in cellular manipulation. Applying laser irradiation, we can use the nanoparticles either to destroy endothelial cells, as a measure to cut the blood supply to tumours, or to deliberately open up the cellular membrane in order to deliver a drug efficiently."
The researchers have published two related papers (NanoLett. 2011, 11 (3), 1358? Small 2011, 7, No. 3, 388?), with another one submitted for publication and four more planned throughout this year.