CRISPR-Cas9: A weapon against antibiotic-resistant superbugs? | Science | In-depth reporting on science and technology | DW

Before the discovery of penicillin in 1928, even such common infections as strep throat could be terminal diagnoses. Antibiotics gave us a great advantage in the battle against harmful bacteria. Since then, antibiotic medicine has improved a lot. But so have bacteria.

The fast rise in antibiotic resistance is one of the world’s most concerning health issues. Antibiotic-resistant infections kill about 700,000 people each year, according to the Worl;d Health Organization (WHO). A 2018 study by the European Centre for Disease Control and Prevention found that these so-called superbugs were responsible for 33,000 deaths  every year in the EU alone. 

Scientists are struggling to keep up with resistant bacteria in developing new antibiotics

Good bacteria against evil bacteria

In a recent study, researchers managed to kill resistant bacteria in mice guts. This method, which is still being researched, uses the famous Nobel Prize winning gene-editing technology, CRISPR-Cas9. 

Scientists from the University of Sherbrooke in Canada used the technology, which works like “genetic scissors,” to delve inside resistant bacteria and cut vital “genetic wires,” which disabled the bacteria, killing them from within.

This result is not only promising because the bacteria were successfully killed, but also because CRISPR-Cas9 specifically targeted harmful bacteria, as opposed to killing off a whole bunch of good bacteria alongside the harmful bacteria — which is what antibiotics do.

But what exactly is CRISPR-Cas9?

Imagine you have a book that you want a specific sentence taken out of. You have a little device that can search through the book for the exact sentence and take it out without damaging the book. On the computer, it would be like using the search function (control+F) to identify and delete the specified text. That’s pretty much what CRISPR-Cas9 does, just on a much, much smaller scale — simply replace the book with a DNA or RNA sequence. 

Infografik Die Gen-Schere CRISPR/Cas9 EN

It’s like a search-and-cut molecular machine. You give it a target DNA sequence, and it will cut precisely and only there. In this case, a DNA sequence belonging to an antibiotic resistant gene.

In theory, it seems simple. But getting this molecular machine inside the resistant bacteria is not easy. The Canada-based researchers managed to do so by exploiting a curious thing that bacteria can do.  They can transfer genetic material between each other when they touch. The process is called conjugation. It’s kind of like being able to send files from one smartphone to another when touching them. 

These scientists used CRISPR-Cas9 to target an antibiotic-resistant gene, and modified it to be much more transferable between bacteria. Then, they put it inside harmless bacteria and fed them to the mice. Surprisingly, it eliminated more than 99.9% of the targeted antibiotic resistant bacteria after only four 4 days.

Though CRISPR-Cas9 is a powerful and precise tool with the potential to be very helpful in eliminating antibiotic resistance, researchers don’t yet know if bacteria are also capable of developing resistance to this technology, too.

But it’s just one example of many studies being carried out in this area. Some research groups have used bacteria-attacking viruses, called bacteriophages, as vehicles, and others have targeted the bacterial RNA instead. 


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