PARIS — Scientists have found a way to use the bacteria E.Coli to convert plastic waste into a popular painkiller, a study said on Monday, though outside experts doubted that the technique would make a dent in the fight against plastic pollution.
Paracetamol, which is one of the most commonly consumed drugs worldwide, is made from the derivatives of fossil fuels, often by Asia-based subcontractors using cheap, polluting methods that contribute to climate change.
The world is also facing an escalating crisis of plastic pollution, with countries set for another bruising round of negotiations in August in the hope of sealing an international treaty to reduce plastic waste.
PLASTIC POTENTIAL Recyclable polyethylene terephthalate (PET) plastic bottles wait to be used to produce personal protective equipment suits at Wat Chak Daeng temple in Samut Prakan, central Thailand, on Sept. 14, 2021. EPA FILE PHOTO
The British team of researchers behind the new study — published in the journal Nature Chemistry — sought to find a solution to the two problems by roping in a third: E.coli, which is normally known for making people sick when they eat contaminated food.
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First, the chemists used a molecule derived from PET (polyethylene terephthalate) plastic, which is used in bottles and many other plastic products the world over, to spark a chemical reaction in a strain of E.coli. This created a molecule they called PABA, said the study, which was partly funded by the drug firm AstraZeneca.
By genetically modifying the bacteria, the chemists were able to transform their molecule into acetaminophen, also known as paracetamol.
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“This work demonstrates that PET plastic isn’t just waste or a material destined to become more plastic. It can be transformed by microorganisms into valuable new products, including those with potential for treating disease,” lead study Stephen Wallace said in a statement.
Singaporean researchers not involved in the study praised how it combined synthetic and biological chemistry. But “several practical considerations remain” to take this idea beyond the proof-of-concept stage, they wrote in a linked commentary in Nature Chemistry.
The chemical reaction produces only a limited amount of PABA molecules, which “may be insufficient for industrial applications,” they added.
Melissa Valliant, communications director of the Beyond Plastics project of Bennington College in the United States, expressed skepticism.
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“A new ‘plastic-eating bacteria’ pops up in the news every few months and has been doing so for years,” she told Agence France-Presse (AFP). “These discoveries never scale up to anything significant enough to tackle the massive plastic pollution problem.”
This “crisis needs to be stopped at the source,” she said, which means “companies and policymakers must reduce the amount of plastic being produced and used in the first place.”
