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A molecular on/off switch for antibiotic resistance

Published: 9 June 2016

McGill Newsroom

Antibiotic resistance represents a major challenge in treating pathogenic bacterial infections.

Now, researchers at 㽶Ƶ have discovered a possible target for fighting back against resistant bacteria.

In a study published in the journal Structure, McGill biochemistry professor Albert Berghuis and colleagues examine an enzyme that uses cellular energy sources to chemically modify antibiotics, thereby enabling bacteria to resist antibiotic drugs. The researchers discovered that the enzyme uses a mechanism similar to that of motion sensors that turn lights on and off. When an antibiotic appears, the enzyme activates and starts to break down antibiotics. When the antibiotic is gone, however, the enzyme switches off, saving valuable energy for the bacterium.

“This mechanism opens new opportunities for us to interfere with this resistance factor, which could help fight against antibiotic-resistant bacterial infections,” Berghuis says.

Caldwell et al., “Antibiotic Binding Drives Catalytic Activation of Aminoglycoside Kinase APH(2’’)-la,” Structure, published June 7, 2016  doi:10.1016/j.str.2016.04.002

This research was funded by the Canadian Institutes of Health Research.

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