IIT Roorkee develops technique to reverse antibiotic resistance

Sakshi Chaturvedi

Sakshi ChaturvediBy Sakshi Chaturvedi

Published on 10 Nov 2017 10:10 AM GMT

IIT Roorkee develops technique to reverse antibiotic resistance
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Roorkee: A path-breaking technique that will potentially help reverse drug resistance as well as enable the existing antibiotics to act effectively has been developed by researchers from the Indian Institute of Technology-Roorkee here.

Bacteria that becomes resistant to drug uses a system called efflux pumps that act as tiny motors to flush out the antibiotic from the cells.

As a result, the drug is unable to reach its target, which aids the bacteria to survive even in the presence of an antibiotic.

In the study, published in the International Journal of Antimicrobial Agents, the researchers reported the discovery of a molecule -- named "IITR 08027" -- which disrupts the proton gradient that is responsible for energising the efflux pumps and thus slows down the outflow of antibiotics.

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Further, "IITR 08027" when used in combination with fluoroquinolones -- antibiotics like ciprofloxacin commonly used to treat respiratory and urinary tract infections -- allows the drugs to kill the bacterial cells, thereby effectively tackling the antibiotic resistance problem.

"Antibiotic resistance in bacterial pathogens has been one of the major issues that plagues the health care sector today. According to an estimate, about 1,900 people die every day due to antibiotic resistant infections, which amounts to about 70,000 deaths per year," said Ranjana Pathania, Associate Professor at the varsity.

"Since this molecule rejuvenates the activity of fluoroquinolones against resistant bacterial pathogens, its clinical use could be a medically as well as an economically beneficial move."

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The study found that "IITR 08027" molecule is also effective against multi-drug resistant clinical strains of Acinetobacter baumannii.

Acinetobacter baumannii is one of the most prevalent pathogens, which has developed strategies to counter the existing antibiotics especially fluoroquinolones.

IANS

Sakshi Chaturvedi

Sakshi Chaturvedi

A journalist, presently working as a Sub-Editor at newstrack.com.

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