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The Humble Potato Could Hold the Key to Beating Hospital Superbugs as Well as Crop Diseases

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The humble potato, which contains a natural antibiotic that destroys harmful bacteria, could hold the key to beating hospital superbugs in the future, according to research from a multinational team of researchers in Europe.

The compound, called solanimycin, combats a host of fungi that wreak havoc on crops. In these recent experiments, it killed Candida albicans, which causes possibly-dangerous infections, like thrush in women.

Most current therapeutic antibiotic compounds originate from soil microbes—and the solanimycin findings show that plant-based microorganisms should get a closer look.

The research team see the discovery as an encouraging sign that plant pathogens could be coaxed to make compounds that may be used not only against plant fungi in crops that have developed resistance to treatments, but also against the growing threat of antimicrobial resistance in humans.

“We have to open to the exploration of everything that’s out there to find new antibiotics,” said Microbiologist Rita Monson, Ph.D., at the University of Cambridge who co-led the study.

This week in mBio, the team reported the discovery of solanimycin, initially isolated from a pathogenic bacterium that infects potatoes, that appears to be produced by a broad spectrum of related plant pathogenic bacteria.

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The pathogenic potato bacterium Dickeya solani, which produces solanimycin, was first identified more than 15 years ago—and researchers at Cambridge have been investigating its antibiotic potential for a decade.

“These strains emerged rapidly, and now they are widely distributed,” said the paper’s co-author, molecular microbiologist Miguel Matilla, Ph.D., at the Spanish Research Council’s Estación Experimental del Zaidín, in Granada.
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Solanimycin isn’t the first antibiotic discovered from the microbe. In previous work, researchers found that D. solani produces an antibiotic called oocydin A, which is highly active against multiple fungal plant pathogens.

Those previous discoveries, together with the analysis of the genome of the bacterium, hinted that it might synthesize additional antibiotics, also with antifungal potential.

That hint paid off: Matilla, Monson, molecular microbiologist George Salmond found that when they silenced the genes responsible for the production of oocydin A, the bacterium continued to show antifungal activity.

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That observation led to the identification of solanimycin and the identification of the gene clusters responsible for the proteins that make the compound.

The bacterium uses the compound sparingly, producing it in response to cell density. An acidic pH environment—as that present in a potato—also activates the solanimycin gene cluster. Monson said it almost looks like a clever protective mechanism.

“It’s an antifungal that we believe will work by killing fungal competitors, and the bacteria benefit so much from this,” said Monson. “But you don’t turn it on unless you’re in a potato.”

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Monson said the researchers have begun collaborating with chemists to learn more about the molecular structure of solanimycin and better understand how it works.

She and Matilla hope for further testing of the compound using plant and animal models—and will focus near-term on trying to use this antibiotic antifungal for crop protection.

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