A team of researchers across three universities is working on a cell-killing machine invisible to the naked eye.

“We want to be bacteria’s worst nightmare,” said James Tour, T.T. and W. F. Chao Professor of Chemistry at Rice University in Houston. He is also a professor of materials science and nanoengineering, and computer science.

Antibiotic-resistant bacteria pose one of the biggest threats to global health, according to the World Health Organization. Researchers at Rice University, Durham University in Britain and North Carolina State University may have discovered a way to fight antibiotic-resistant bacteria.


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Harmful Bacteria’s Worst Nightmare May Be a Microscopic Drill

They’re experimenting with tiny, manmade nanomachines that can drill into a cell, killing it. The machines are single molecule motors that can spin at about 3 million rotations a second when a blue light shines on them. As they spin, they drill into the cell. Harmful bacteria cannot mutate to overcome this type of weapon, Tour said.

“We may have found something that the cell could never build a resistance to,” he added.

The nanomachines are so small that about 50,0000 of them can fit across the diameter of a human hair. In comparison, only about 50 cells can take up that amount of space.

Antibiotic-resistant bacteria are not the only enemies this weapon can fight.

Cancer killer

The nanomachines can drill into cancer cells, causing the cells’ nucleus to disintegrate into fragments.

“We’ve tried four different types, and every cancer cell that it touches is toast,” said Tour, whose team tested the nanomachines on a couple strains of human breast cancer cells, cancerous skin cells and pancreatic cancer cells.

The way it works is that a peptide, also a molecule that consists of amino acids, is added to the nanomotor. That peptide recognizes specific cells and binds the nanomachine to that cell so that only cancer cells, not healthy cells, are targeted. A blue light activates the machine.

“Generally, it’s not just one nanomachine, it’s 50, and each cell is going to get 50 holes drilled in it generally,” Tour said.

The nanomachines can fight cancerous cells in the mouth, upper and lower gastrointestinal tracts and bladder “wherever you can get a scope in, a light, apply it right there, and use the light” to activate the motors, Tour said.

It would only take a few minutes to kill cancerous cells with nanomachines, in contrast to days or longer using radiation or chemotherapy, Tour said.

Sculpt away fat

In another application, nanomachines could be used to sculpt away fat cells when applied onto the skin through a gel.

“You just take a bright light and just pass it over and these start attacking the adipocytes, which are the fat cells and blow those open,” Tour said.

Next steps

Researchers have only worked with nanomachines in a lab, so using this method in a clinical setting is still some time off. Later this year, researchers will start testing nanomachines on staphylococcus bacteria skin infections on live rodents.

One challenge scientists will have to overcome as nanomachine research progresses is how to get the blue light deep into the body if the motors are to fight bacteria or tumor cells that are well below the skin’s surface.

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