Tiny fluorescent carbon dots could make cancer treatment safer and more effective
University of Sheffield researchers have developed a new technique to make photodynamic therapy safer, cheaper and more effective, using tiny carbon nanoparticles to deliver cancer drugs directly to tumours.
Existing methods of light-based therapy are frequently toxic, making the therapy intolerable to some patients, and leading to treatment failure. Carbon nanoparticles have very little toxicity and they glow, making them easy to locate and monitor as they move around the body.
The study, carried out by PhD student Jose Ricardo Aguilar Cosme and overseen by an interdisciplinary team of researchers from the University’s Department of Materials Science and Engineering and Department of Oncology and Metabolism, has developed tiny carbon nanoparticles that can deliver cancer drugs to tumours.
Carbon dots are fluorescent nanoparticles with very little toxicity, making them extremely useful for this application. These nanoparticles were made using common ingredients such as sucrose and citric acid.
Two different versions of the carbon dots were developed as part of the research, one with the drug bound on the surface (PpIX-CD) and one where the drug was inside the dot (PpIX@CD).
The light-activated drug the University of Sheffield team used was protoporphyrin IX (PpIX).
Dr Frederik Claeyssens from the University’s Department of Materials Science and Engineering, who supervised the research, said: “When the drug was bound to the surface of a carbon dot, it was four times less toxic without light while maintaining its cancer-killing effect in a lab model of melanoma skin cancer. This increases the overall effectiveness of the drug.
“An additional advantage of the carbon dots is that they glow, also known as fluorescence, which makes them very simple to locate. We observed that the particles rapidly enter tumour cells and their fluorescence makes it simple to monitor how they move around the body and how they accumulate in tumours.”
Dr Helen Bryant from the University’s Department of Oncology and Metabolism, who also supervised the research, added: “Our research has the potential to produce cheaper anti-cancer drugs with greater efficiency to kill tumours and fewer side-effects in patients. The next stage of our work is the translation of our findings to more complex models of cancer and ultimately to patients.”
Jose Ricardo Aguilar Cosme, a PhD Engineering Materials student, said: “The development of new drug delivery approaches can make drugs safer and more effective. We hope to expand our research to evaluate the efficiency of carbon dots with drugs commonly used in chemotherapy and more clinically-relevant cancer models.”
The study, Carbon dot-protoporphyrin IX conjugates for improved drug delivery and bioimaging, was funded by CONACYT and published in the journal PLOS One.
To access the full research paper, visit: https://doi.org/10.1371/journal.pone.0220210
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