DNA Nanorobots Successfully Attack & Kill Off Cancerous Tumors
Science fiction no more — in an article in Nature
Biotechnology, scientists were able to show tiny autonomous bots have the
potential to function as intelligent delivery vehicles to cure cancer in mice.
These DNA nanorobots do so by seeking out and injecting
cancerous tumors with drugs that can cut off their blood supply, shriveling
them up and killing them.
“Using tumor-bearing mouse models, we demonstrate that
intravenously injected DNA nanorobots deliver thrombin specifically to
tumor-associated blood vessels and induce intravascular thrombosis, resulting
in tumor necrosis and inhibition of tumor growth,” the paper explains.
DNA nanorobots are a somewhat new concept for drug delivery.
They work by getting programmed DNA to fold into itself like origami and then
deploying it like a tiny machine, ready for action.
The scientists behind this study tested the delivery bots by
injecting them into mice with human breast cancer tumors. Within 48 hours, the
bots had successfully grabbed onto vascular cells at the tumor sites, causing
blood clots in the tumor’s vessels and cutting off their blood supply, leading
to their death.
Remarkably, the bots did not cause clotting in other parts
of the body, just the cancerous cells they’d been programmed to target,
according to the paper.
The scientists were also able to demonstrate the bots did
not cause clotting in the healthy tissues of Bama miniature pigs, calming fears
over what might happen in larger animals.
The goal, say the scientists behind the paper, is to
eventually prove these bots can do the same thing in humans. Of course, more
work will need to be done before human trials begin.
Regardless, this is a huge breakthrough in cancer research.
The current methods of either using chemotherapy to destroy every cell just to
get at the cancer cell are barbaric in comparison. Using targeted drugs is also
not as exact as simply cutting off blood supply and killing the cancer on the
spot. Should this new technique gain approval for use on humans in the near
future it could have impressive affects on those afflicted with the disease.
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